Magnetic storage device

What is claimed is: 1. A magnetic storage device comprising: a first magnetoresistive effect element comprising a first magnetic layer having a first coercivity, a second magnetic layer having a second coercivity higher than the first coercivity, and a third magnetic layer having a third coercivity higher than the second coercivity, a magnetization orientation of the second magnetic layer being antiparallel to a magnetization orientation of the third magnetic layer; a second magnetoresistive effect element comprising a fourth magnetic layer having a fourth coercivity, a fifth magnetic layer having a fifth coercivity higher than the fourth coercivity, and a sixth magnetic layer having a sixth coercivity higher than the fifth coercivity, a magnetization orientation of the fifth magnetic layer being parallel to a magnetization orientation of the sixth magnetic layer; and an amplifier having a first input coupled to the first magnetoresistive effect element and a second input coupled to the second magnetoresistive effect element, and amplifying a difference between a potential of the first input and a potential of the second input. 2. The device of claim 1 , wherein a current required to make a magnetization orientation of the fourth magnetic layer parallel to the magnetization orientation of the fifth magnetic layer is larger than a current required to make the magnetization orientation of the fourth magnetic layer antiparallel to the magnetization orientation of the fifth magnetic layer. 3. The device of claim 1 , wherein a value of the first coercivity of the first magnetic layer having a magnetization orientation parallel to the magnetization orientation of the second magnetic layer is larger than a value of the first coercivity of the first magnetic layer having the magnetization orientation antiparallel to the magnetization orientation of the second magnetic layer. 4. The device of claim 1 , wherein the sixth coercivity is larger than the third coercivity. 5. The device of claim 1 , wherein the third magnetic layer has a first area along an interface with the second magnetic layer, the sixth magnetic layer has a second area along an interface with the fifth magnetic layer, the sixth magnetic layer has substantially the same thickness as a thickness of the third magnetic layer, and the second area is smaller than the first area. 6. The device of claim 1 , wherein the third magnetic layer has a first area along an interface with the second magnetic layer, the sixth magnetic layer has a second area along an interface with the fifth magnetic layer, the sixth magnetic layer is thicker than the third magnetic layer, and the second area is substantially the same as the first area. 7. The device of claim 1 , wherein the fourth magnetic layer comprises substantially the same material as the first magnetic layer, the fifth magnetic layer comprises substantially the same material as the second magnetic layer, and the sixth magnetic layer comprises substantially the same material as the third magnetic layer. 8. The device of claim 1 , wherein the second magnetoresistive effect element further comprises a first electrode coupled to a first interconnect, and a second electrode coupled to a second interconnect, the device further comprises at least one of a first magnet and a second magnet, the first magnet and the second electrode sandwich the first electrode, and the second magnet and the first electrode sandwich the second electrode. 9. A magnetic storage device comprising: a first magnetoresistive effect element comprising a first magnetic layer and a second magnetic layer which sandwich a first nonmagnetic layer, and a third magnetic layer which sandwiches the second magnetic layer with the first nonmagnetic layer, a magnetization orientation of the second magnetic layer being antiparallel to a magnetization orientation of the third magnetic layer; a second magnetoresistive effect element comprising a fourth magnetic layer and a fifth magnetic layer which sandwich a second nonmagnetic layer, and a sixth magnetic layer which sandwiches the fifth magnetic layer with the second nonmagnetic layer, the sixth magnetic layer having a shape different from a shape of the third magnetic layer, and a magnetization orientation of the fifth magnetic layer being parallel to a magnetization orientation of the sixth magnetic layer; and an amplifier having a first input coupled to the first magnetoresistive effect element and a second input coupled to the second magnetoresistive effect element, and amplifying a difference between a potential of the first input and a potential of the second input. 10. The device of claim 9 , wherein the third magnetic layer has a first area along an interface with the second magnetic layer, the sixth magnetic layer has a second area along an interface with the fifth magnetic layer, the sixth magnetic layer has substantially the same thickness as a thickness of the third magnetic layer, and the second area is smaller than the first area. 11. The device of claim 9 , wherein the third magnetic layer has a first area along an interface with the second magnetic layer, the sixth magnetic layer has a second area along an interface with the fifth magnetic layer, the sixth magnetic layer is thicker than the third magnetic layer, and the second area is substantially the same as the first area. 12. The device of claim 9 , wherein the third magnetic layer has a first area along an interface with the second magnetic layer, the sixth magnetic layer has a second area along an interface with the fifth magnetic layer, the sixth magnetic layer is thinner than the third magnetic layer, and the second area is substantially the same as the first area. 13. The device of claim 9 , wherein the fourth magnetic layer comprises substantially the same material as the first magnetic layer, the fifth magnetic layer comprises substantially the same material as the second magnetic layer, and the sixth magnetic layer comprises substantially the same material as the third magnetic layer. 14. The device of claim 9 , wherein the third magnetic layer has a coercivity larger than a coercivity of the second magnetic layer, and the sixth magnetic layer has a coercivity smaller than a coercivity of the fifth magnetic layer. 15. The device of claim 9 , wherein a coercivity of the sixth magnetic layer is smaller than a coercivity of the third magnetic layer. 16. A magnetic storage device comprising: a first magnetoresistive effect element; a reference circuit comprising a second magnetoresistive effect element; an amplifier having a first input coupled to the first magnetoresistive element and a second input coupled to the reference circuit, and amplifying a difference between a potential of the first input and a potential of the second input; a first circuit which conducts a first write current through the first magnetoresistive effect element; and a second circuit which conducts a second write current larger than the first write current through the second magnetoresistive effect element. 17. The device of claim 16 , wherein the first circuit comprises a first driver and a first switch between the first magnetoresistive effect element and the first driver, the second circuit comprises a second driver and a second switch between the second magnetoresistive effect element and the second driver, the second driver outputs a current larger than the maximum current output by the first driver, or the second switch allows a first curre