An array-level evaluation of magneto-electric random-access memory (MeRAM) is conducted by comparing its performance with that of other embedded technologies. We consider MeRAM cells with one transistor and one magnetic tunnel junction (1T-1MTJ) structure, where writing of the two-terminal MTJ bit is performed by precessional reorientation of the magnetization via voltage control of the magnetic anisotropy. We consider an accurate resistance-capacitance load on the critical path by including capacitive and resistive effects on the bit lines, word lines, and source lines, because the access time and energy consumption are strongly affected by the parasitics. We then estimate the write access time, read access time, write energy, and area of each memory technology based on 28 nm complementary metal-oxide-semiconductor model parameters under two different conditions: (i) fixed array capacity (512 x 512 bits = 256 Kbits) and (ii) fixed array area (200 mu m x 200 mu m). We discuss the tradeoffs and advantages of MeRAM compared to embedded SRAM, embedded DRAM (eDRAM), stand-alone DRAM, and embedded spin-transfer torque magnetic random-access memory.

• 出版日期2017