A memory device, including a plurality of planes, includes a mode setting component to set an operation mode of the memory device as a verify pass mode to allow a verify operation, performed in the plurality of planes, to forcibly pass; and a verify signal generator for outputting a verify pass signal signaling that the verify operation has passed for each of the plurality of planes.

A nonvolatile memory device includes a memory cell array, an erase body voltage generator, and an erase source voltage generator. The memory cell array includes memory blocks, each of which includes cell strings each including a ground selection transistor, memory cells, and a string selection transistor stacked in a direction perpendicular to a substrate. The erase body voltage generator applies an erase body voltage to the substrate during an erase operation. The erase source voltage generator applies an erase source voltage to a common source line connected with ground selection transistors of the cell strings during the erase operation.

Technology is disclosed herein for reducing wear due to erasing and programming non-volatile memory cells. The memory system selects a hybrid SLC group of cells for programming to an SLC mode while the selected hybrid SLC group is presently programmed to either the SLC mode or an MLC mode. Memory cells in the selected hybrid SLC group are erased to an SLC erased state regardless of the presently programmed mode of the selected hybrid SLC group. An average memory cell Vt of the SLC erased state is greater than an average threshold voltage of an MLC erased state. Memory cells in the selected hybrid SLC group are programmed from the SLC erased state to an SLC programmed state. Erasing the hybrid SLC group to the SLC erased state reduces wear relative to erasing to the MLC erased state. Therefore, the useful life of the hybrid SLC group is extended.

A non-volatile memory has an array of non-volatile memory cells, first reference word lines and second reference word lines, and sense amplifiers. The sense amplifiers read system data, that has been written to supplemental non-volatile memory cells of the first reference word lines, using comparison of the supplemental non-volatile memory cells of the first reference word lines to supplemental non-volatile memory cells of the second reference word lines. Status of erasure of the non-volatile memory cells of the array is determined based on reading the system data.

Technology is disclosed herein for reducing wear due to erasing and programming non-volatile memory cells. The memory system selects a hybrid SLC group of cells for programming to an SLC mode while the selected hybrid SLC group is presently programmed to either the SLC mode or an MLC mode. Memory cells in the selected hybrid SLC group are erased to an SLC erased state regardless of the presently programmed mode of the selected hybrid SLC group. An average memory cell Vt of the SLC erased state is greater than an average threshold voltage of an MLC erased state. Memory cells in the selected hybrid SLC group are programmed from the SLC erased state to an SLC programmed state. Erasing the hybrid SLC group to the SLC erased state reduces wear relative to erasing to the MLC erased state. Therefore, the useful life of the hybrid SLC group is extended.

A semiconductor memory device includes first conductive layers arranged in a first direction, second conductive layers arranged in the first direction, a first semiconductor layer disposed therebetween, a charge storage layer, a first wiring electrically connected to the first semiconductor layer, and first and second transistors connected to the first and the second conductive layers. In the semiconductor memory device, in an erase operation, a first voltage is supplied to at least a part of the first conductive layers, an erase voltage larger than the first voltage is supplied to the first wiring, and a first signal voltage is supplied to at least a part of the second transistors. The first signal voltage turns OFF the second transistor.

A nonvolatile semiconductor memory device includes a control circuit configured to control a soft program operation of setting nonvolatile memory cells to a first threshold voltage distribution state of the nonvolatile memory cells. When a characteristic of the nonvolatile memory cells is in a first state, the control circuit executes the soft program operation by applying a first voltage for setting the nonvolatile memory cells to the first threshold voltage distribution state to first word lines, and applying a second voltage higher than the first voltage to a second word line. When the characteristic of the nonvolatile memory cells is in a second state, the control circuit executes the soft program operation by applying a third voltage equal to or lower than the first voltage to the first word lines and applying a fourth voltage lower than the second voltage to the second word line.

An embodiment of an electronic apparatus may include one or more substrates, and logic coupled to the one or more substrates, the logic to set an erase voltage for a first block of a persistent storage media to a default erase voltage, determine if the first block of the persistent storage media is identified for a secure erase operation, and set the erase voltage for the first block of the persistent storage media to a shallow erase voltage if the first block of the persistent storage media is identified for the secure erase operation, where the shallow erase voltage corresponds to a weaker erase operation relative to the default erase voltage. Other embodiments are disclosed and claimed.

A word line decoding circuit and memory comprises a first address decoding module to obtain word line logic signals; a word line pre-coding module to obtain word line pre-coding signals and first switch signals; a second address decoding module to obtain first and second selection signals; a third address decoding module to obtain third selection signals; a first level conversion module which performs level conversion on the first selection signals to obtain first and second control signals; a second level conversion module which performs level conversion on the second selection signals to get third and fourth control signals; a third level conversion module which performs level conversion on the third selection signals to obtain fifth control signals; a word line toggle switch signal generation module which generates second switch signals based on each control signal; and a word line toggle module to generate word line signals.

A flash memory and a writing method thereof are provided. The flash memory includes a plurality of memory blocks and a plurality of multiplex circuits. The memory blocks are arranged into a plurality of memory banks. Each of the memory blocks transmits a plurality of erase voltages or a plurality of program voltages to the corresponding memory bank for executing an erase operation or a program operation. The program operation is executed by one of the memory banks while the erase operation is executed by another one of the memory banks according to a programming while erasing instruction.