SET/RESET Cycling-Induced Trap Creation and SET-Disturb Failure Time Degradation in a Resistive-Switching Memory

Characterization and modeling of SET/RESET cycling-induced SET-disturb failure time degradation in a tungsten oxide resistive random access memory are performed. We find that write-disturb failure time in a high-resistance state (HRS) cell abruptly degrades by the orders of magnitude after certain S...

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Veröffentlicht in:	IEEE transactions on electron devices 2016-06, Vol.63 (6), p.2367-2373
Hauptverfasser:	Chung, Yueh-Ting, Su, Po-Cheng, Lin, Wen-Jie, Chen, Min-Cheng, Wang, Tahui
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Sprache:	eng
Schlagworte:	Circuits Computer simulation Constants Current measurement Degradation Dielectrics Electric potential Failure times Model RESET failure Percolation Random access memory resistive random access memory (RRAM) SET-disturb failure time Stress Stress measurement Stresses trap generation Tunneling Voltage Voltage measurement
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creator	Chung, Yueh-Ting Su, Po-Cheng Lin, Wen-Jie Chen, Min-Cheng Wang, Tahui
description	Characterization and modeling of SET/RESET cycling-induced SET-disturb failure time degradation in a tungsten oxide resistive random access memory are performed. We find that write-disturb failure time in a high-resistance state (HRS) cell abruptly degrades by the orders of magnitude after certain SET/RESET cycles. To investigate this new degradation mode, we perform the constant voltage stress in high-resistance state (HRS) to characterize the trap generation in a switching dielectric by measuring a stress-induced leakage current and a low-frequency noise. The constant voltage stress is to emulate high-field stress and, thus, trap creation in SET/RESET cycling. We find that a low-field current in HRS by trap-assisted tunneling in a rupture region gradually increases in both the constant voltage stress and the SET/RESET cycling stress. The high-field stress-generated traps, unlike SET-induced oxygen vacancies, cannot be annihilated by RESET operation and are held responsible for a RESET endurance failure. A 3-D Monte Carlo model based on a percolation concept of oxide breakdown is developed to simulate a SET-disturb failure time. Our model includes both the stress-generated traps and the SET-disturb-induced oxygen vacancies. The model can well explain the observed abrupt and the drastic SET-disturb lifetime degradation, which is attributed to the formation of a conductive percolation path of stress-generated traps.
doi_str_mv	10.1109/TED.2016.2555333
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We find that write-disturb failure time in a high-resistance state (HRS) cell abruptly degrades by the orders of magnitude after certain SET/RESET cycles. To investigate this new degradation mode, we perform the constant voltage stress in high-resistance state (HRS) to characterize the trap generation in a switching dielectric by measuring a stress-induced leakage current and a low-frequency noise. The constant voltage stress is to emulate high-field stress and, thus, trap creation in SET/RESET cycling. We find that a low-field current in HRS by trap-assisted tunneling in a rupture region gradually increases in both the constant voltage stress and the SET/RESET cycling stress. The high-field stress-generated traps, unlike SET-induced oxygen vacancies, cannot be annihilated by RESET operation and are held responsible for a RESET endurance failure. A 3-D Monte Carlo model based on a percolation concept of oxide breakdown is developed to simulate a SET-disturb failure time. 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We find that write-disturb failure time in a high-resistance state (HRS) cell abruptly degrades by the orders of magnitude after certain SET/RESET cycles. To investigate this new degradation mode, we perform the constant voltage stress in high-resistance state (HRS) to characterize the trap generation in a switching dielectric by measuring a stress-induced leakage current and a low-frequency noise. The constant voltage stress is to emulate high-field stress and, thus, trap creation in SET/RESET cycling. We find that a low-field current in HRS by trap-assisted tunneling in a rupture region gradually increases in both the constant voltage stress and the SET/RESET cycling stress. The high-field stress-generated traps, unlike SET-induced oxygen vacancies, cannot be annihilated by RESET operation and are held responsible for a RESET endurance failure. A 3-D Monte Carlo model based on a percolation concept of oxide breakdown is developed to simulate a SET-disturb failure time. Our model includes both the stress-generated traps and the SET-disturb-induced oxygen vacancies. 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We find that write-disturb failure time in a high-resistance state (HRS) cell abruptly degrades by the orders of magnitude after certain SET/RESET cycles. To investigate this new degradation mode, we perform the constant voltage stress in high-resistance state (HRS) to characterize the trap generation in a switching dielectric by measuring a stress-induced leakage current and a low-frequency noise. The constant voltage stress is to emulate high-field stress and, thus, trap creation in SET/RESET cycling. We find that a low-field current in HRS by trap-assisted tunneling in a rupture region gradually increases in both the constant voltage stress and the SET/RESET cycling stress. The high-field stress-generated traps, unlike SET-induced oxygen vacancies, cannot be annihilated by RESET operation and are held responsible for a RESET endurance failure. A 3-D Monte Carlo model based on a percolation concept of oxide breakdown is developed to simulate a SET-disturb failure time. 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subjects	Circuits Computer simulation Constants Current measurement Degradation Dielectrics Electric potential Failure times Model RESET failure Percolation Random access memory resistive random access memory (RRAM) SET-disturb failure time Stress Stress measurement Stresses trap generation Tunneling Voltage Voltage measurement
title	SET/RESET Cycling-Induced Trap Creation and SET-Disturb Failure Time Degradation in a Resistive-Switching Memory
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