Title :
Fast-bit-limited lifetime modeling of advanced floating gate non-volatile memories
Author :
Scarpa, A. ; Tao, G. ; Dijkstra, J. ; Kuper, F.G.
Author_Institution :
Philips Semicond., Nijmegen, Netherlands
Abstract :
The few fast bits, resulting from stress induced leakage current, that are found in a memory array limit lifetime of an entire device. Instead of classical temperature accelerated tests, `simple´ gate stress represents therefore the correct method to study the advanced non-volatile memory retention behavior. In this paper a model is proposed to predict the memory lifetime under use conditions based on accelerated gate stress measurements. The model considers a statistical approach, in order to overcome the erratic behavior of fast bits. It enables predicting the lifetime of memory products as function of memory size and number of write/erase cycles. Application of the model is discussed as well as a wafer level implementation form
Keywords :
integrated circuit modelling; integrated circuit testing; integrated memory circuits; leakage currents; life testing; accelerated gate stress measurement; data retention; floating gate nonvolatile memory array; lifetime model; stress induced leakage current; wafer-level testing; Acceleration; Electrons; Nonvolatile memory; Predictive models; Semiconductor device modeling; Stress; Temperature; Testing; Threshold voltage; Voltage control;
Conference_Titel :
Integrated Reliability Workshop Final Report, 2000 IEEE International
Conference_Location :
Lake Tahoe, CA
Print_ISBN :
0-7803-6392-2
DOI :
10.1109/IRWS.2000.911894
