Effect of coupling parasitics and CMOS driver width on transition time for dynamic inputs

Sharma, Devendra Kumar; Kaushik, Brajesh Kumar; Sharma, R. K.

doi:10.1080/00207217.2013.794485

Cited by 3 publications

(3 citation statements)

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“…The voltage and current at discrete points on the line are numerically computed using recursive equations ( 3) and (4). Equations ( 8)- (11) are the recursive relations at source end and load end respectively. The stability of the FDTD technique is determined by the Courant condition, which states that the time step (t ) must not be greater than the propagation time over each cell OE17 .…”

Section: Fdtd Algorithm For Coupled Interconnectsmentioning

confidence: 99%

“…The effect of unequal transition time on crosstalk has been reported in Ref. [11]. The study of unequal transition time is important because it is quite common to have mismatching in the rise time of input signals propagating through different length wires.…”

Section: Introductionmentioning

confidence: 99%

“…The effect of coupling parasitics on signal transition time has been reported in Ref. [11]. Usually authors have analyzed the effect of transition time on performance parameters by taking it as equal for the inputs to interconnect lines.…”

Section: Introductionmentioning

confidence: 99%

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FDTD based transition time dependent crosstalk analysis for coupled RLC interconnects

Sharma¹,

Kaushik

Sharma

2014

J. Semicond.

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The performance of high density chips operating in the GHz range is mostly affected by on-chip interconnects. The interconnect delay depends on many factors, a few of them are inputs toggling patterns, line & coupling parasitics, input rise/fall time and source/load characteristics. The transition time of the input is of prime importance in high speed circuits. This paper addresses the FDTD based analysis of transition time effects on functional and dynamic crosstalk. The analysis is carried out for equal and unequal transition times of coupled inputs. The analysis of the effects of unequal rise time is equally important because practically, it is quite common to have mismatching in the rise time of the signals transmitting through different length wires. To demonstrate the effects, two distributed RLC lines coupled inductively and capacitively are taken into consideration. The FDTD technique is used because it gives accurate results and carries time domain analysis of coupled lines. The number of lumps in SPICE simulations is considered the same as those of spatial segments. To validate the FDTD computed results, SPICE simulations are run and results are compared. A good agreement of the computed results has been observed with respect to SPICE simulated results. An average error of less than 3.2% is observed in the computation of the performance parameters using the proposed method.

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Section: Fdtd Algorithm For Coupled Interconnectsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%