The complexity of Random Telegraph Noise (RTN) under digital circuit operations makes it difficult to predict its impacts without accurate modeling and simulation. However, properly integrating RTN into circuit simulation is challenging due to its stochastic nature. In this paper, RTN is comprehensively modeled and embedded into BSIM. A circuit simulation methodology based on industry-standard EDA tools is proposed, resolving the stochastic property, the AC effects, and the coupling of RTN and circuits that are crucial for accurate predictions of impacts of RTN. Using the compact model and proposed method, impacts of RTN on RO and SRAM are demonstrated, which ascertains their applicability to different type of circuits.CPCI-S(ISTP)r.wang@pk...
Random telegraph signal (RTS) noise has shown an increased impact on circuit performance at advanced...
This paper presents a thorough statistical investigation of random telegraph noise (RTN) and bias te...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
The complexity of Random Telegraph Noise (RTN) under digital circuit operations makes it difficult t...
Random telegraph noise (RTN) is one of the important dynamic variation sources in ultrascaled MOSFET...
Abstract—With aggressive technology scaling and heightened variability, circuits such as SRAMs and D...
Silicon MOSFETs are active switching elements which form the basis for most currently available digi...
In this work, we propose for the first time a Verilog-A physics-based compact model of Random Telegr...
In this paper, we report about the derivation of a physics-based compact model of random telegraph n...
Abstract: In this paper, we delve into one of the most relevant defects-related phenomena causing f...
Abstract—Random telegraph noise (RTN) has become an important reliability issue at the sub-65nm tech...
In this paper, the amplitude (Delta I-d/I-d) distribution of random telegraph noise (RTN) induced by...
International audienceIn this work, we present our latest modeling approaches regarding low-frequenc...
Random Telegraph Noise (RTN) effects are investigated in 65nm SRAM cells by using a new characteriza...
This paper gives an outline of our recent findings on the random telegraph noise (RTN) in nanoscale ...
Random telegraph signal (RTS) noise has shown an increased impact on circuit performance at advanced...
This paper presents a thorough statistical investigation of random telegraph noise (RTN) and bias te...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
The complexity of Random Telegraph Noise (RTN) under digital circuit operations makes it difficult t...
Random telegraph noise (RTN) is one of the important dynamic variation sources in ultrascaled MOSFET...
Abstract—With aggressive technology scaling and heightened variability, circuits such as SRAMs and D...
Silicon MOSFETs are active switching elements which form the basis for most currently available digi...
In this work, we propose for the first time a Verilog-A physics-based compact model of Random Telegr...
In this paper, we report about the derivation of a physics-based compact model of random telegraph n...
Abstract: In this paper, we delve into one of the most relevant defects-related phenomena causing f...
Abstract—Random telegraph noise (RTN) has become an important reliability issue at the sub-65nm tech...
In this paper, the amplitude (Delta I-d/I-d) distribution of random telegraph noise (RTN) induced by...
International audienceIn this work, we present our latest modeling approaches regarding low-frequenc...
Random Telegraph Noise (RTN) effects are investigated in 65nm SRAM cells by using a new characteriza...
This paper gives an outline of our recent findings on the random telegraph noise (RTN) in nanoscale ...
Random telegraph signal (RTS) noise has shown an increased impact on circuit performance at advanced...
This paper presents a thorough statistical investigation of random telegraph noise (RTN) and bias te...
The power consumption of digital circuits is proportional to the square of operation voltage and the...