Title :
Modeling of Set and Reset Operations of Phase-Change Memory Cells
Author :
Faraclas, Azer ; Williams, Nicholas ; Gokirmak, Ali ; Silva, Helena
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Connecticut, Storrs, CT, USA
Abstract :
Phase-change memory elements with 25-nm Ge2Sb2Te5 thickness and 25-nm heater diameter with ±2-nm protrusion/recess of the heater are studied using 2-D finite-element simulations with rotational symmetry. Temperature-dependent material parameters are used to solve current continuity and heat equations self-consistently. Melting is accounted for by including latent heat of fusion in heat capacity at melting temperature. Electrical breakdown is modeled using additional field-dependent conductivity terms to enable set simulations. Analyses on current, voltage, energy, power, and minimum pitch requirements are summarized for reset/set operations with 1-ns/20-ns voltage pulses leading to ~500× difference between the reset and set resistance states.
Keywords :
antimony compounds; electric breakdown; finite element analysis; germanium compounds; phase change memories; 2D finite-element simulations; Ge2Sb2Te5; current continuity; electrical breakdown; field-dependent conductivity; heat capacity; heat equations; melting temperature; phase-change memory cells; reset operations; rotational symmetry; size 25 nm; size 8 nm; temperature-dependent material parameters; time 1 ns; time 20 ns; Conductivity; Electric breakdown; Materials; Phase change memory; Resistance heating; Tin; Electric breakdown; finite element methods; phase change memory;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2011.2168374
