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80-kb Logic Embedded High-K Charge Trap Transistor-Based Multi-Time-Programmable Memory with No Added Process Complexity
Date Issued
01-03-2018
Author(s)
Jayaraman, Balaji
Leu, Derek
Indian Institute of Technology, Madras
Cestero, Alberto
Yin, Ming
Golz, John
Tummuru, Rajesh Reddy
Raghavan, Ramesh
Moy, Dan
Kempanna, Thejas
Khan, Faraz
Kirihata, Toshiaki
Iyer, Subramanian S.
Abstract
This paper describes the design and implementation of an 80-kb logic-embedded non-volatile multi-time programmable memory (MTPM) with no added process complexity. Charge trap transistors (CTTs) that exploit charge trapping and de-trapping behavior in high-K dielectric of 32-/22-nm Logic FETs are used as storage elements with logic-compatible programming voltages. A high-gain slew-sense amplifier (SA) is used to efficiently detect the threshold voltage difference (Δ VDIF) between the true and complement FETs in the twin cell. Design-assist techniques including multi-step programming with over-write protection and block write algorithm are used to enhance the programming efficiency without causing a dielectric breakdown. High-temperature stress results show a projected data retention of 10 years at 125 °C with a signal loss of <30% that is margined in while programming, by employing a sense margining logic in the SA. Scalability of CTT has been established by the first demonstration of CTT-based MTPM in 14-nm bulk FinFET technology with read cycle time of 40 ns at 0.7-V VDD.
Volume
53