Abstract: Apparatus, systems, and methods are disclosed, including a high-voltage charge pump including multiple pump stages connected in series to provide a high-voltage output, a common discharge circuit, and multiple high-voltage devices coupled between the outputs of each of the multiple pump stages and the common discharge circuit. Each of the multiple pump stages include a low-voltage switching device. The common discharge circuit is coupled to each of the multiple pump stages and is configured to discharge the multiple pump stages when the multiple pump stages are disabled. The multiple high-voltage devices include a respective high-voltage device coupled between an output of each of the multiple pump stages and the common discharge circuit.

Abstract: Apparatus and methods are disclosed for providing a bias, comprising a bias generator circuit including a high voltage (HV) circuit configured to generate a regulated high voltage (HV) from an HV line and provide the regulated HV at an HV regulated line and a low voltage (LV) circuit configured to generate a low voltage (LV) differential from the HV line and to provide the LV differential at an LV line.

Abstract: A sample and hold scheme for temperature measurements for non-volatile memory can enable significant reduction in temperature readout latency. In one example thermometer circuits are enabled at a refresh rate to cause the temperature to be sensed and latched at regular intervals. By performing the temperature readings in the background at a refresh rate instead of on-demand, the temperature is available to service commands with almost no latency.

Abstract: Aspects of the disclosure provide an interface between a host and a multi-plane flash memory. For example, the interface can include a first storage unit, a second storage unit and a controller. The first storage unit can be configured to receive and store a first plane pipeline command issued from the host, and output the first plane pipeline command to a first plane of the flash memory. The second storage unit can be configured to receive and store a second plane pipeline command issued from the host, and output the second plane pipeline command to a second plane of the flash memory. The controller can be electrically connected to the first storage unit and the second storage unit, and configured to output the first and second plane pipeline commands to the first and second planes, respectively, when no read process is performed on the first plane and the second plane.

Abstract: Apparatus, systems, and methods are disclosed, including a high-voltage charge pump including multiple pump stages connected in series to provide a high-voltage output, a common discharge circuit, and multiple high-voltage devices coupled between the outputs of each of the multiple pump stages and the common discharge circuit. Each of the multiple pump stages include a low-voltage switching device. The common discharge circuit is coupled to each of the multiple pump stages and is configured to discharge the multiple pump stages when the multiple pump stages are disabled. The multiple high-voltage devices include a respective high-voltage device coupled between an output of each of the multiple pump stages and the common discharge circuit.

Abstract: A memory device includes a memory array comprising a plurality of planes, a plurality of voltage generation systems, and a controller. Each voltage generation system is electrically coupled to a corresponding plane. The controller is configured to turn on and warm up each voltage generation system of the plurality of voltage generation systems in response to a first command to access any plane of the plurality of planes and turn off and slowly discharge each voltage generation system of the plurality of voltage generation systems into an idle state in response to no commands being processed. In response to receiving a subsequent command to access any plane of the plurality of planes prior to the voltage generation systems reaching the idle state, a warm up period of the plurality of voltage generation systems is reduced.

Abstract: Disclosed are systems and methods of dynamically calibrating a memory control voltage more accurately. According to disclosed implementations, a memory control voltage such as Vpass or Vwlrv may be calibrated during memory operation as a function of the change in slope of total string current, even during increase in the wordline voltage. In one exemplary method, the wordlines are increased in sequence from a start voltage to an end voltage in steps, slope change is measured at every step, the measured slope change is compared against a threshold, and an adjusted memory control voltage is determined as a function of a wordline voltage at which the change in slope reaches the threshold. As such, memory control voltage may be determined and dynamically calibrated with less sensitivity to operating parameters such as temperature, pattern, and/or time of programming.

Abstract: A voltage generation system might include a selectively-enabled resistive voltage divider having a first resistor connected between an output of the voltage generation system and a first feedback node and having a second resistor connected between the first feedback node and a first voltage node; a selectively-enabled capacitive voltage divider having a first capacitor connected between the output and a second feedback node and having a second capacitor connected between the second feedback node and the first voltage node; a comparator having a first input connected to the second feedback node, having a second input connected to a control signal node, and having an output; and a voltage generation circuit configured to generate a voltage level at the output responsive to a logic level of the output of the comparator and to a clock signal; wherein the first feedback node is selectively connected to the second feedback node.

Abstract: Memory devices can be structured in a three-dimensional arrangement using a circuit under array (CUA) architecture. The memory array of such a memory device can include memory cells disposed in vertically arranged tiers. With the memory array extending over a substrate, the CUA region under the memory array can include control circuitry for the memory array. A space adjacent the memory array and disposed above the CUA region can include a dielectric material and conductive structures, with the conductive structures extending vertically in the dielectric material and alongside the memory array. The conductive structures separated by the dielectric material can be used as a capacitor coupled between nodes with the nodes configured to provide different voltages. This capacitor can be coupled to a circuit or a connection node below the level of the memory array.

Abstract: Apparatus and methods are disclosed for providing a bias, comprising a bias generator circuit including a high voltage (HV) circuit configured to generate a regulated high voltage (HV) from an HV line and provide the regulated HV at an HV regulated line and a low voltage (LV) circuit configured to generate a low voltage (LV) differential from the HV line and to provide the LV differential at an LV line, wherein the LV circuit is configured to direct current used to generate the LV differential into the HV regulated line.

Abstract: Memories including an array of memory cells, a local access line connected to a plurality of memory cells of the array of memory cells, a global access line, a transistor connected between the global access line and the local access line, and an energy store either selectively connected to a control gate of the transistor, or selectively connected to a control gate of a different transistor connected between the control gate of the transistor and a voltage node configured to receive a reference potential.

Abstract: Devices and techniques are disclosed herein to provide a high-voltage bias signal in a standby state of the storage system without exceeding a limited maximum standby current allowance of the storage system. The high-voltage bias signal can enable a string driver circuit in the standby state to couple a global word line to a local word line, to provide a bias to, or sink a voltage from, a pillar of a string of memory cells of the storage system in the standby state, such as to reduce read disturbances in the storage system.

Abstract: A memory device comprises a memory array; a word line driver circuit including a charge pump circuit configured to generate a program voltage target to be applied to a word line to program a memory cell of the memory array, and a control loop to activate the charge pump circuit using a control signal according to a comparison of a pump circuit output voltage to the program voltage target; a sensor circuit that compares a duty cycle of the control signal to a specified duty cycle after the charge pump circuit output reaches the program voltage target, and provides an indication of current generated by the charge pump circuit according to the duty cycle; and logic circuitry that generates a fault indication when the current generated by the charge pump circuit is greater than a specified threshold current.

Abstract: An example system includes prediction workers, training workers, and a parameter server. The prediction workers store a local copy of a machine-learned model and run the mode exclusively in serving mode. The training workers store a local copy of a machine-learned model and a local snapshot and run the local copy exclusively in training mode and compare the local model or state to the snapshot after training to send delta updates to the parameter server after training. The parameter server aggregates received delta updates into a master copy of the model, sends the aggregated updates back to training workers and provides two types of updates; a real-time update based on a comparison of the master model with a local snapshot, and a full update. The real-time update occurs at least an order of magnitude more frequently than the full update and includes a subset of the weights in the model.

Abstract: A memory device includes a memory array comprising a plurality of planes, a plurality of voltage generation systems, and a controller. Each voltage generation system is electrically coupled to a corresponding plane. The controller is configured to turn on and warm up each voltage generation system of the plurality of voltage generation systems in response to a first command to access any plane of the plurality of planes and turn off and slowly discharge each voltage generation system of the plurality of voltage generation systems into an idle state in response to no commands being processed. In response to receiving a subsequent command to access any plane of the plurality of planes prior to the voltage generation systems reaching the idle state, a warm up period of the plurality of voltage generation systems is reduced.

Abstract: Devices and techniques are disclosed herein to provide a high-voltage bias signal in a standby state of the storage system without exceeding a limited maximum standby current allowance of the storage system. The high-voltage bias signal can enable a string driver circuit in the standby state to couple a global word line to a local word line, to provide a bias to, or sink a voltage from, a pillar of a string of memory cells of the storage system in the standby state, such as to reduce read disturbances in the storage system.

Abstract: Disclosed are systems and methods of dynamically calibrating a memory control voltage more accurately. According to disclosed implementations, a memory control voltage such as Vpass or Vwlrv may be calibrated during memory operation as a function of the change in slope of total string current, even during increase in the wordline voltage. In one exemplary method, the wordlines are increased in sequence from a start voltage to an end voltage in steps, slope change is measured at every step, the measured slope change is compared against a threshold, and an adjusted memory control voltage is determined as a function of a wordline voltage at which the change in slope reaches the threshold. As such, memory control voltage may be determined and dynamically calibrated with less sensitivity to operating parameters such as temperature, pattern, and/or time of programming.

Abstract: A voltage generation system might include a selectively-enabled resistive voltage divider having a first resistor connected between an output of the voltage generation system and a first feedback node and having a second resistor connected between the first feedback node and a first voltage node; a selectively-enabled capacitive voltage divider having a first capacitor connected between the output and a second feedback node and having a second capacitor connected between the second feedback node and the first voltage node; a comparator having a first input connected to the second feedback node, having a second input connected to a control signal node, and having an output; and a voltage generation circuit configured to generate a voltage level at the output responsive to a logic level of the output of the comparator and to a clock signal; wherein the first feedback node is selectively connected to the second feedback node.

Abstract: A memory device includes a memory array comprising a plurality of planes, a plurality of voltage generation systems, and a controller. Each voltage generation system of the plurality of voltage generation systems is electrically coupled to a corresponding plane of the plurality of planes. The controller is configured to turn on each voltage generation system of the plurality of voltage generation systems in response to a first command to access a first plane of the plurality of planes. The controller is configured to operate the voltage generation system of the plurality of voltage generation systems corresponding to the first plane of the plurality of planes at a first clock frequency, and operate the remaining voltage generation systems of the plurality of voltage generation systems corresponding to the other planes of the plurality of planes at a second clock frequency less than the first clock frequency.

Abstract: Methods of operating a memory, and memories having a controller configured to cause the memory to perform such methods, include applying a plurality of first voltage levels to an access line, applying a plurality of second voltage levels to a control gate of a string driver connected to the access line for a first portion of the plurality of first voltage levels with each second voltage level of the plurality of second voltage levels being greater than a respective first voltage level by a first voltage differential, and applying a plurality of third voltage levels to the control gate of the string driver for a second portion of the plurality of first voltage levels with each third voltage level of the plurality of third voltage levels being greater than a respective first voltage level by a second voltage differential less than the first voltage differential.