Behavioral fault modeling and simulation of phase-locked loops using a VHDL-A like language

Shi, C.-J.R.; Godambe, N.

doi:10.1109/asic.1996.552003

Cited by 4 publications

(2 citation statements)

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“…The effect of these shorts have been considered individually and in multiples using circuit simulation. A number of observations have be made from these simulations [23]:…”

Section: Induced Behavioral Fault Modeling Of Vcosmentioning

confidence: 99%

“…In this section, we describe how to model faults within a VCO at the behavioral level, using induced behavioral fault modeling [23]. It consists of four steps: (1) use inductive fault analysis to extract a realistic set of faults at the transistor level, (2) use a mixed-signal circuit simulator to analyze the effect of transistor-level faults on the block behavior The schematic of the VCO we consider in this paper is shown in Fig.…”

Section: Induced Behavioral Fault Modeling Of Vcosmentioning

confidence: 99%

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Behavioral level noise modeling and jitter simulation of phase-locked loops with faults using VHDL-AMS

Godambe

Shi

Proceedings. 15th IEEE VLSI Test Symposium (Cat. No.97TB100125)

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It is important to predict noise at the early stages of a top down design. In this papel; we propose a methodology to modelphase noise orjitter; a key specification forphaselocked loops, using a mixed-signal hardware description language, and to simulate the efects of catastrophic faults on the phase jitter at the behavioral level. In contrast to existing approaches which either require dedicated noise simulators or postpone noise and fault simulation to the transistor level, we have successfully demonstrated that noise in a voltage-controlled oscillator; power supply noise, and their effects on the overall phase jitter within a faultyphaselocked loop can be modeled and simulated earlier on at the behavioral level. Our simulation results are consistent with experimentally verified, theoretical predictions. MotivationAnalog testing, being currently performed by performance measurement, is becoming a bottleneck that affects both the cost and time-to-market of mixed-signal circuits and systems. Recently, significant progress has been made to address this challenge by using an alternate, faultdriven and simulation-based methodology [ 171. A key enabling technique is behavioral modeling -more specifically, restricted behavioral modeling, mixed behavioral and structural modeling, and induced behavioral fault modeling. Restricted behavioral modeling, or macromodeling, is to model transistor-level faults at the block-level using available circuit-level primitives. This has been demonstrated on operational amplifiers [ 16, 191 and sample-hold circuits [24]. Mixed behavioral and structural modeling is to replace fault-free blocks by their behavioral models and consider fault blocks at the transistor level. Its advantages have been demonstrated on phase-locked loops (PLLs) and *This research is sponsored by the U S Defense Advanced Research Projects Agency (DARPA) under grant number F33615-96-1-5601 from the U S . Air Force, Wright Laboratory, Manufacturing Technology Directorate. A/D converters [ 11, 14,211. Induced behavioral fault modeling is to model both fault-free and faulty blocks at the behavioral level. It has been demonstrated on PLLs [4, 231 and switched-capacitor circuits [3,4].However, an issue that has not been addressed by previous behavioral fault modeling efforts, especially AHDLbased modeling, is whether it is possible to model circuit noise at the behavioral level using analog (and mixedsignal) hardware description languages (AHDLs), and simulate the effect of faults on it. It is well known that noise modeling is a key design issue for many analog circuits, One of the most important parameters for PLL design is phase noise or jitter. For example, the available clock period of a PLL in digital design is shortened in effect by the peak-to-peak jitter [7]. Previous attempts to address this issue include [20,25], but they are based on simplified linear models and the jitter evaluation process followed is quite involved.In this paper, we propose an AHDL-based methodology for noise modeling and study how fault...

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“…The effect of these shorts have been considered individually and in multiples using circuit simulation. A number of observations have be made from these simulations [23]:…”

Section: Induced Behavioral Fault Modeling Of Vcosmentioning

confidence: 99%

Section: Induced Behavioral Fault Modeling Of Vcosmentioning

confidence: 99%