Patent application number | Description | Published |
20080219045 | Semiconductor memory device and magneto-logic circuit - Provided are a semiconductor memory device and a magneto-logic circuit which change the direction of a magnetically induced current according to a logical combination of logic states of a plurality of input values. The semiconductor memory device comprises a current driving circuit, a magnetic induction layer, and a resistance-variable element. The current driving circuit receives a plurality of input values and changes the direction of a magnetically induced current according to a logical combination of logic states of the input values. The magnetic induction layer induces magnetism having a direction varying according to the direction of the magnetically induced current. The resistance-variable element has a resistance varying according to the direction of the magnetism induced by the magnetic induction layer. | 09-11-2008 |
20090067233 | Magnetic random access memory and method of reading data from the same - A magnetic random access memory (MRAM) includes a memory cell having a first transistor and a first magnetic tunneling junction (MTJ) layer, and a reference cell operable as a basis when reading data stored in the memory cell, the reference cell including second and third MTJ layers arranged in parallel to each other, and a second transistor connected in series to each of the second and third MTJ layers, the second transistor having a driving capability corresponding to twice a driving capability of the first transistor of the memory cell. | 03-12-2009 |
20090122596 | Semconductor memory device and method of programming the same - Provided are a semiconductor memory device and a method of programming the same. The semiconductor memory device includes a mode input value generating unit and a logic operating unit. The mode input value generating unit changes a connection state between input values of a current driving circuit so as to correspond to each of at least two operating modes, and defines a logic function of a magnetic memory cell connected to the current driving circuit in response to each operating mode. The logic operating unit performs a logic operation on the logic functions of at least two magnetic memory cells defined according to each of the operating modes and generates a result of logic operation. | 05-14-2009 |
20100008130 | Method of operating magnetic random access memory device - Provided is a method of operating a magnetic random access memory device comprising a switch structure and a magnetoresistance structure. According to the method, current variation depending on the direction of the current can be reduced by controlling a gate voltage of the switch structure when supplying current to write data to the magnetoresistance structure. | 01-14-2010 |
20100008135 | Information storage devices using magnetic domain wall movement and methods of operating the same - An information storage device includes a storage node, a write unit configured to write information to a first magnetic domain region of the storage node, and a read unit configured to read information from a second magnetic domain region of the storage node. The information storage device further includes a temporary storage unit configured to temporarily store information read by the read unit, and a write control unit electrically connected to the temporary storage unit and configured to control current supplied to the write unit. The information read from the second magnetic domain region is stored in the temporary storage unit and written to the first magnetic domain region. | 01-14-2010 |
20100157663 | Information storage device and method of operating the same - An information storage device includes a memory region having a magnetic track and a write/read unit, and a control circuit connected to the memory region. First and second switching devices are connected to both ends of the magnetic track, and a third switching device is connected to the write/read unit. The control circuit controls the first to third switching devices, and supplies operating current to at least one of the magnetic track and the write/read unit. | 06-24-2010 |
20100232055 | Information storage devices and methods of operating the same - An information storage device includes a magnetic structure having a buffer track and a plurality of storage tracks connected to the buffer track. A write/read unit is disposed on the magnetic structure, and a plurality of switching devices are respectively connected to the buffer track, the plurality of storage tracks, and the write/read unit. The switching devices that are respectively connected to the buffer track and the storage tracks. The information storage device further includes a circuit configured to supply current to at least one of the magnetic structure and the write/read unit. | 09-16-2010 |
20110157971 | Magnetic random access memories and methods of operating the same - A spin transfer torque magnetic random access memory (STT-MRAM) and includes: a memory cell and a reference cell configured to operate as a reference when data stored in the memory cell is read. The memory cell includes: a first magnetic tunneling junction (MTJ) element and a first transistor connected to the first MTJ element. The reference cell includes: second and third MTJ elements connected in parallel; and second and third transistors that are connected to the second and third MTJ elements, respectively. The STT-MRAM further includes a control circuit having a write circuit configured to supply write currents having opposite directions to the second and third MTJ elements. | 06-30-2011 |
20120098605 | FEED-FORWARD RING OSCILLATOR - Disclosed herein is a feed-forward ring oscillator. The feed-forward ring oscillator includes a plurality of delay cells for receiving a first differential input signal pair and a second differential input signal pair, and outputting a differential output signal pair. The delay cells are connected in a ring shape. Each of the delay cells receives a differential output signal pair of a delay cell of a previous stage as a first differential input signal pair and receives a differential output signal pair of a delay cell of a stage before the previous stage as a second differential input signal pair. Each of the delay cells comprises multiple independent gate field-effect transistors. | 04-26-2012 |
20130265814 | MAGNETIC RAMDOM ACCESS MEMORY - A magnetic random access memory includes multiple gate lines that are divided into a first gate line group and a second gate line group and arranged to be parallel to one another; multiple magnetic random access memory cells that are bonded to the gate lines in a direction intersected with the gate lines, respectively; multiple source lines that are bonded to one ends of switching devices included in the magnetic random access memory cells and arranged to be parallel to one another; and multiple bit lines that are bonded to one ends of magnetic tunnel junction devices included in the magnetic random access memory cells and arranged to be parallel to one another. | 10-10-2013 |