Patent ID: 8559215

Claim:
A magnetic random access memory (MRAM) element configured to store a state when electric current flows therethrough comprising: at least one magneto tunnel junction (MTJ) configured to store a data bit including, a magnetic free layer (FL) having a switchable magnetization with a direction that is perpendicular to a film plane, the direction of magnetization of the FL being determinative of the data bit stored in the at least one MTJ; a magnetic reference layer (RL) having a magnetization with a direction that is perpendicular to the film plane; a magnetic pinned layer (PL) having a magnetization with a direction that is perpendicular to the film plane; a junction layer (JL) positioned between the FL and the RL wherein a change of the magnetization direction of the FL relative to the magnetization of the RL produces a resistance change across the JL; a spacer layer (SL) disposed immediately adjacent to the PL, wherein the directions of magnetization of the RL and the PL of the at least one MTJ being anti-parallel relative to each other, further wherein when electric current is applied to the first at least one MTJ, the magnetization direction of the FL thereof switches during a write operation, whereas, the direction of magnetization of the RL and the PL thereof remain the same; at least another MTJ configured to store a reference bit that is used to compare with the at least one MTJ to retrieve the data bit stored in the at least one MTJ, the at least another MTJ including, a magnetic free layer (FL) having a switchable magnetization with a direction that is perpendicular to the film plane, the direction of magnetization of the FL being determinative of the data bit stored in the at least one MTJ; a magnetic reference layer (RL) having a magnetization with a direction that is perpendicular to the film plane; a magnetic pinned layer (PL) having a magnetization with a direction that is perpendicular to the film plane, a junction layer (JL) positioned between the FL and the RL, wherein a change of the magnetization direction of the FL of the at least another MTJ relative to the magnetization direction of the RL thereof produces a resistance change across the JL of the at least another MTJ; a spacer layer (SL) disposed immediately adjacent to the PL, wherein the directions of magnetizations of the RL and the PL of the at least another MTJ being parallel relative to each other.