A memory device may include: a memory region including a plurality of word lines, a self-refresh command generation circuit suitable for generating self-refresh commands for each predetermined interval during a self-refresh period, a refresh check circuit suitable for generating a ratio signal by checking a ratio which word lines refreshed in response to the self-refresh commands occupy among the plurality of word lines, a ratio adjustment circuit suitable for adjusting, among a plurality of auto-refresh commands inputted from an external device during an auto-refresh period, a ratio of to-be-applied commands, which are to be used for a refresh operation, to to-be-skipped commands, which are to be skipped for the refresh operation, according to the ratio signal, and a refresh operation circuit suitable for performing the refresh operation on the plurality of word lines in response to the self-refresh commands and the to-be-applied commands.

A dynamic random-access memory array includes a plurality of memory cells and sensor cells physical arranged in a row. The sensor cells include a transistor and a capacitor having an input terminal connected to a first non-gate terminal of the transistor. A wordline is connected to transistor gates of both the memory cells and sensor cells in the row. A sensor amplifier has inputs connected to the sensor cell, a high voltage reference line, and a low voltage reference line, and an output in communication with a row refresh circuit. If the sensor amplifier detects that the sensor cell voltage falls outside of the range of the high and low voltage reference lines, then a trigger signal is output to request that the row refresh circuit perform a priority row refresh of the memory cells and the sensor cell in the row.

Provided are a memory device for detecting a weakness of an operation pattern and a method of operating the same. The method includes: storing address information and activation count information regarding N word lines from among the plurality of word lines in a register including N entries; based on activation of a first word line different from the N word lines, storing address information and activation count information regarding the first word line in an entry from which information is evicted from among the N entries; and generating first weakness information based on a number of evictions performed on the register during a first period.

A memory includes a first cell array configured to include a plurality of first memory cells connected to a plurality of word lines, a second cell array configured to include a plurality of second memory cells connected to the plurality of word lines, wherein a group of the plurality of second memory cells which are connected to a corresponding word line stores the number of activations for the corresponding word line, and an activation number update unit configured to update a value stored in the corresponding group of the plurality of second memory cells connected to the activated word line of the plurality of word lines.

An integrated circuit includes: first and second pattern generation circuits generating first and second pattern signal for a sampling section; a first section control part generating a coarse section signal for a first section of the sampling section, according to the first pattern signal; a first filter part generating a first section extract signal by filtering the second pattern signal according to the coarse section signal; a second section control part generating a fine section signal for a second section of the sampling section, according to the first section extract signal; a second filter part generating a second section extract signal by filtering the second pattern signal according to the fine section signal; an output control circuit generating a sampling enable signal according to the first and second section extract signals; and a sampling circuit suitable for sampling an input signal according to the sampling enable signal.

Methods, systems, and devices for biasing a memory cell during a read operation are described. For example, a memory device may bias a memory cell to a first voltage (e.g., a read voltage) during an activation phase of a read operation. After biasing the memory cell to the first voltage, the memory device may bias the memory cell to a second voltage greater than the first voltage (e.g., a write voltage) during the activation phase of the read operation. After biasing the memory cell to the second voltage, the memory device may initiate a refresh phase of the read operation. Based on a value stored by the memory cell prior to biasing the memory cell to the first voltage, the memory device may initiate a precharge phase of the read operation.

A refresh control device may include a command decoder configured to decode a command signal and a specific address, and output a refresh signal, an active signal and a row hammer refresh signal. The refresh control device may include a refresh controller configured to output an active address, a row hammer address and a refresh address based on the refresh signal, the active signal, the row hammer refresh signal and a latch address. The refresh control device may include a combiner configured to combine the active address, the row hammer address and the refresh address, and output a refresh control signal.

A method of protecting a DRAM memory device from the row hammer effect, the memory device comprising a plurality of banks composed of memory rows, may be implemented by at least one logic prevention device configured to respectively associate contiguous sections of rows of a bank with sub-banks. The prevention logic is also configured to execute a preventive refresh cycle of the sub-banks that is entirely executed before the number of rows activated in a sub-bank exceed a critical hammer value. A DRAM memory device, a buffer circuit or a controller of such a memory may comprise the logic for preventing the row hammer effect.

A device includes an operation control circuit and a drive control signal generation circuit. The operation control circuit generates an internal refresh signal that is activated to perform an active operation for a cell array, the cell array being coupled to a word line that is selected by a row address based on a refresh signal that is activated to perform a refresh operation. In addition, the operation control circuit generates a pre-refresh pulse based on the refresh signal and generates a refresh end pulse based on the internal refresh signal. The drive control signal generation circuit generates a drive control signal to control a drive of an active voltage that is supplied to the word line that is selected by the row address based on the internal refresh signal, the pre-refresh pulse, and the refresh end pulse.

A method of protecting a DRAM memory device from the row hammer effect, the memory device comprising a plurality of banks composed of memory rows, may be implemented by at least one logic prevention device configured to respectively associate contiguous sections of rows of a bank with sub-banks. The prevention logic is also configured to execute a preventive refresh cycle of the sub-banks that is entirely executed before the number of rows activated in a sub-bank exceed a critical hammer value. A DRAM memory device, a buffer circuit or a controller of such a memory may comprise the logic for preventing the row hammer effect.