Abstract: Technology is described for identifying non-volatile memory cells having data that should be refreshed. The technology could be used to identify which groups of memory cells that store cold data should have a data refresh. In one aspect, a non-volatile storage device has at least one monitor memory cell associated with a group of data memory cells. The non-volatile storage device may use different programming techniques to program the data and monitor memory cells. In one aspect, the programming technique used for the monitor memory cell is less stable with respect to state than the technique used to program the associated data memory cells. The state of the monitor memory cell may change in a predictable manner, such that the state of the monitor cell may be sensed periodically to determine whether the associated data memory cells should be refreshed.

Abstract: An apparatus may include detection circuitry configured to detect a presence of a host clock signal on a host clock line, and detect a level of a host supply voltage upon detection of the host clock signal. The detection circuitry may configure a core regulator in a regulation mode or in a bypass mode based on the detected level of the host supply voltage. Additionally, components of analog circuitry of a non-volatile memory system may be partitioned into different supply voltage domains, with those components active during a sleep state receiving one supply voltage and those components inactive during the sleep state receiving a different supply voltage.

Abstract: A bit line read voltage generator may operate in a high drive strength or current mode to drive a selected bit line voltage to a read selected bit line voltage at a high level, and then may switch to operating in a low drive strength or current mode. Doing so may control, such as by limiting, the amount of cell current if the selected memory cell turns on, reducing the likelihood of false writes. Also, a word line read voltage generator may operate in a high drive strength or current mode to ramp up a selected word line voltage level, and then may switch to operating in a low drive strength or current mode to shorten the time for a global selected word line voltage to decrease to below a trip level and/or to control an amount of the cell current when the selected memory cell turns on.

Abstract: A non-volatile memory system may include a non-volatile memory die storing a requested data set that a host requests to be read. In response to the host request, a copy of a data set may be retrieved from the non-volatile memory die without performing error correction on an entry identifying a physical address where the data set is stored. If the data set copy matches the requested data set, the data set copy may be sent to the host. If the data set copy does not match the requested data set, then error correction may be performed on a copy of the entry to identify the correct physical address where the requested data set is stored. A copy of the requested data set may then be retrieved and sent to the host.

Abstract: Apparatuses, systems, and methods are disclosed for current sensing for non-volatile memory. A current to voltage conversion circuit may convert a current coupled to a sense amplifier to an analog voltage at a sense node. A voltage to digital conversion circuit may convert an analog voltage at a sense node to a digital signal, based on a voltage difference between the sense node and a comparison node during a strobe time. A bias circuit may bias a comparison node to a bias voltage other than a reference voltage, at least during a strobe time.

Abstract: A sense amplifier for a memory circuit that can sense into the deep negative voltage threshold region is described. A selected memory cell is sensed by discharging a source line through the memory cell into the bit line and sense amplifier. While discharging the source line through the memory cell into the sense amplifier, a voltage level on the discharge path is used to set the conductivity of a discharge transistor to a level corresponding to the conductivity of the selected memory cell. A sense node is then discharged through the discharge transistor. To reduce noise, a decoupling capacitor is connected to the control gate of the discharge transistor and an auxiliary keeper current is run through the discharge transistor.

Abstract: A method is provided that includes forming a transistor by forming a gate dielectric layer above a substrate, forming a spacer dielectric layer above the gate dielectric layer, and forming a gate adjacent the gate dielectric layer and above the spacer dielectric layer.

Abstract: A sense amplifier for a memory circuit that can sense into the deep negative voltage threshold region is described. A selected memory cell is sensed by discharging a source line through the memory cell into the bit line and sense amplifier. While discharging the source line through the memory cell into the sense amplifier, a voltage level on the discharge path is used to set the conductivity of a discharge transistor to a level corresponding to the conductivity of the selected memory cell. A sense node is then discharged through the discharge transistor. To reduce noise, a decoupling capacitor is connected to the control gate of the discharge transistor and an auxiliary keeper current is run through the discharge transistor.

Abstract: Disturbs are reduced during programming and read operations for drain-side memory cells in a string by controlling dummy word line portions separately in selected and unselected sub-blocks. One or more of the dummy word line layers are separated so that they can be driven with different voltages. This allows the channel gradient to be optimized to reduce the likelihood of disturbs. In another aspect, a stack of alternating conductive and dielectric layers is formed in two parts, with lower pillars which comprise select gate transistors, source-side dummy memory cells and data memory cells, below upper pillars which comprise drain-side dummy memory cells and select gate transistors. The upper pillars are relatively narrow to provide a more compact structure. Moreover, the centerline of some upper pillars can be offset from the centerline of corresponding lower pillars to provide room for an isolation region.

Abstract: A method and system for write amplification analysis are provided. In one embodiment, a method is provided that is performed in a computing device. The method comprises determining an amount of data written from the computing device to a storage system over a time period, wherein the storage system comprises a memory; determining an amount of data written to the memory by the storage system over the time period; calculating a write amplification factor over the time period; and simultaneously displaying graphs of the amount of data written from the computing device over the time period, the amount of data written to the memory over the time period, and the write amplification factor over the time period. Other embodiments are possible, and each of the embodiments can be used alone or together in combination.

Abstract: A memory device and associated techniques for reducing disturbs of select gate transistors and dummy memory cells in a memory device. In one approach, a ramp up of the voltage of a dummy word line is delayed relative to a ramp up of a voltage of data word lines in a program phase of a program loop, after a pre-charge phase of the program loop. Another possible approach delays the ramp up of a first dummy memory cell while the voltage of a second dummy memory cell is maintained at an elevated level throughout the pre-charge phase and the program phase. In another aspect, the disturb countermeasure is used when the selected data memory cell is relatively close to the source-end of the memory string and phased out when the selected data memory cell is relatively close to the drain-end of the memory string.

Abstract: Apparatuses and techniques for counting 0 or 1 bits in a set of bits using both serial and parallel processes. The counting process includes a hierarchy in which the count from different parallel processes at one level in the hierarchy are passed to a smaller number of different parallel processes at a lower level in the hierarchy. A final count is obtained by an accumulator below the lowest level of the hierarchy. The position and configuration of the circuits can be set to equalize a number of circuits which process the different bits, so that a maximum delay relative to the accumulator is equalized.

Abstract: A memory device and associated techniques for reducing hot electron injection type of disturbs of memory cells. In one approach, after a pre-charge operation, voltages of a first group of adjacent word lines comprising a selected word line (WLn) and one or more drain-side word lines of WLn are increased after voltages of remaining word lines are increased. In another approach, after the pre-charge operation, voltages of the first group of adjacent word lines are increased in steps while voltages of remaining word lines are continuously increased. In another approach, voltages of the first group of adjacent word lines are increased from a negative voltage while voltages of remaining word lines are increased from 0 V. In another aspect, the disturb countermeasures can be implemented according to the position of WLn in a multi-tier stack.

Abstract: A memory device and associated techniques for reducing program disturb of memory cells which are formed in a two-tier stack with an increased distance between memory cells at an interface between the tiers. After a verify test in a program loop, a different timing is used for decreasing the word line voltages of the interface memory cells compared to the remaining memory cells. In one aspect, the start of the decrease of the word line voltages of the interface memory cells is delayed. In another aspect, the word line voltages of the interface memory cells is decreased to an intermediate level and held for a time period before being decreased further. In another aspect, the word line voltages of the interface memory cells are decreased at a lower rate.

Abstract: A system may include a controller, a data receiving circuit, and a plurality of banks. The banks may send data to the data receiving circuit via a common data bus. The controller may control the communication of the data to the receiving circuit by sending control signals and clock signals to the banks. Relative lengths of control signal paths and clock signal paths may be directly related to each other and inversely related to relative lengths of data paths.

Abstract: A partial memory die is missing one or more components. One example of a partial memory die includes an incomplete memory structure such that the partial memory die is configured to successfully perform programming, erasing and reading of the incomplete memory structure.

Abstract: A method is provided that includes forming a word line above a substrate, the word line disposed in a first direction, forming a bit line above the substrate, the bit line disposed in a second direction perpendicular to the first direction, forming a nonvolatile memory material between the word line and the bit line, and forming a memory cell including the nonvolatile memory material at an intersection of the bit line and the word line. The word line includes a first portion and a second portion including an electrically conductive carbon-containing material. The nonvolatile memory material includes a semiconductor material layer and a conductive oxide material layer, with the semiconductor material layer disposed adjacent the second portion of the word line.

Abstract: Sensing in non-volatile memory is performed using bias conditions that are dependent on the position of a selected memory cell within a group of non-volatile memory cells. During sensing, a selected memory cell receives a reference voltage while the remaining memory cells receive a read or verify pass voltage. For at least a subset of the unselected memory cells, the pass voltage that is applied is dependent upon the position of the selected memory cell in the group. As programming progresses from a memory cell at a first end of a NAND string toward a memory cell at a second end of the NAND string, for example, the pass voltage for at least a subset of the unselected memory cells that have already been subjected to programming may be increased. This technique may reduce the effects of an increased channel resistance that occurs as more memory cells are programmed.

Abstract: A memory device and associated techniques for reducing hot electron injection type of disturbs of memory cells. In one approach, after a pre-charge operation, voltages of a first group of adjacent word lines comprising a selected word line (WLn) and one or more drain-side word lines of WLn are increased after voltages of remaining word lines are increased. In another approach, after the pre-charge operation, voltages of the first group of adjacent word lines are increased in steps while voltages of remaining word lines are continuously increased. In another approach, voltages of the first group of adjacent word lines are increased from a negative voltage while voltages of remaining word lines are increased from 0 V. In another aspect, the disturb countermeasures can be implemented according to the position of WLn in a multi-tier stack.

Abstract: A non-volatile storage apparatus is proposed that includes a plurality of serially connected non-volatile reversible resistance-switching memory cells, a plurality of word lines such that each of the memory cells is connected to a different word line, a bit line connected to a first end of the serially connected memory cells and a switch connected to a second end of the serially connected memory cells. In one embodiment, the memory cells include a reversible resistance-switching structure comprising a first material, a second material and a reversible resistance-switching interface between the first material and the second material, a channel, and means for switching current between current flowing through the channel and current flowing through the reversible resistance-switching interface in order to program and read the reversible resistance-switching interface. A process for manufacturing the memory is also disclosed.