Title :
Write Windows of a Ballistic Bit Addressing MRAM Write Operation
Author :
Schumacher, H.W.
Author_Institution :
Phys. Tech. Bundesanstalt, Braunschweig
Abstract :
The size of the write windows for ultrafast magnetic random access memory (MRAM) write operation based on ballistic bit addressing (BBA) is studied. During BBA the magnetization of a bit which is to be reversed undergoes a half precessional turn, whereas a bit which is not to be reversed undergoes a full precessional turn. After BBA pulse application the residual demagnetizing energy of the magnetic bit is low and magnetization ringing is suppressed. By single-spin simulations of the magnetization dynamics of an MRAM cell quasi-static and dynamic switching asteroids and maps of the residual energy after bit addressing are calculated. The results show a sufficient write margin allowing low-ringing ultrafast BBA MRAM write operation
Keywords :
magnetic storage; random-access storage; MRAM cell; MRAM write operation; ballistic bit addressing; demagnetizing energy; magnetic bit; magnetic random access memory; magnetization dynamics; magnetization ringing; single-spin simulations; switching asteroids; write windows; Anisotropic magnetoresistance; Damping; Demagnetization; Energy consumption; Geometry; Magnetic switching; Magnetization reversal; Pulse generation; Random access memory; Saturation magnetization; Magnetic random access memory (MRAM); magnetization dynamics; magnetization reversal; precession;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.878866
