Abstract:
An electronic device according to various embodiments may comprise a memory in which one or more applications are installed, a communication circuit, and a processor, wherein the processor is configured to acquire audio data during execution of a designated application among the one or more applications, wherein the acquiring of audio data comprises an operation of storing, in the memory, at least a portion including multiple pieces of phoneme information among the audio data, when a designated condition is satisfied, transmit the at least portion to an external electronic device so that the external electronic device generates designated information for execution of at least one application among the one or more applications by using at least a part of the multiple pieces of phoneme information stored before the designated condition is satisfied, and on the basis of the designated information, execute the at least one application in relation to the designated application.
Abstract:
A nonvolatile memory device includes a memory cell array having nonvolatile memory cells therein, which are electrically connected to a plurality of word lines and a plurality of bit lines. A write driver and row decoder are provided, which are electrically connected to the plurality of bit lines and the plurality of word lines, respectively. Control logic is configured to transfer a first voltage to the write driver and a second voltage to the row decoder. The control logic includes: (i) a normal standby mode circuit configured to operate in a normal standby mode, and (ii) a deep standby mode circuit configured to operate in a deep standby mode. To save power, the layout areas of a plurality of elements within the deep standby mode circuit are smaller than layout areas of elements within the normal standby mode circuit, so that current flowing within the deep standby mode circuit during the deep standby mode is less than current flowing within the normal standby mode circuit during the normal standby mode.
Abstract:
Magnetic junction memory devices and methods for writing data to memory devices are provided. The magnetic junction memory device includes a first memory bank including first magnetic junction memory cells, a first local write driver adjacent to the first memory bank, connected to global data lines, the first local write driver configured to write data to the first magnetic junction memory cells via local data lines, a second memory bank adjacent to the first memory bank and including second magnetic junction memory cells, a second local write driver adjacent to the second memory bank, connected to the global data lines, the second local write driver configured to write data to the second magnetic junction memory cells via local data lines, and a global write driver configured to provide first and second write data to the first and second local write driver, respectively, via the global data lines.
Abstract:
A blood pressure measurement apparatus for determining a level of rareness of raw data and transmitting the raw data to a gateway or a server according to the determined level of the raw data includes a blood pressure estimator configured to acquire raw data for estimating blood pressure, and to estimate blood pressure from the raw data according to a blood pressure estimation algorithm; and a controller configured to determine a level of rareness of the raw data, and to determine whether to transmit the raw data according to the determined level of rareness of the raw data.
Abstract:
Magnetic junction memory devices and methods for writing data to memory devices are provided. The magnetic junction memory device includes a first memory bank including first magnetic junction memory cells, a first local write driver adjacent to the first memory bank, connected to global data lines, the first local write driver configured to write data to the first magnetic junction memory cells via local data lines, a second memory bank adjacent to the first memory bank and including second magnetic junction memory cells, a second local write driver adjacent to the second memory bank, connected to the global data lines, the second local write driver configured to write data to the second magnetic junction memory cells via local data lines, and a global write driver configured to provide first and second write data to the first and second local write driver, respectively, via the global data lines.
Abstract:
A nonvolatile memory device includes a memory cell array having nonvolatile memory cells therein, which are electrically connected to a plurality of word lines and a plurality of bit lines. A write driver and row decoder are provided, which are electrically connected to the plurality of bit lines and the plurality of word lines, respectively. Control logic is configured to transfer a first voltage to the write driver and a second voltage to the row decoder. The control logic includes: (i) a normal standby mode circuit configured to operate in a normal standby mode, and (ii) a deep standby mode circuit configured to operate in a deep standby mode. To save power, the layout areas of a plurality of elements within the deep standby mode circuit are smaller than layout areas of elements within the normal standby mode circuit, so that current flowing within the deep standby mode circuit during the deep standby mode is less than current flowing within the normal standby mode circuit during the normal standby mode.
Abstract:
An electronic device includes a microphone, a processor, and a memory. The memory stores an application for monitoring user information, and the memory stores instructions that, when executed by the processor, cause the electronic device to record a plurality of parameters associated with the user information in the application when a predefined event occurs to record a first parameter and the first parameter is not recorded in the application, to output a message for obtaining the first parameter, to receive a user response associated with the first parameter, to transmit data associated with the user response to an external server, to receive a first response from the external server, and to record the first parameter in the application by allowing the electronic device to have information about sequences of states of the electronic device. The first response includes information about sequences of states of the electronic device for recording the first parameter in the application.