Ground bounce in digital VLSI circuits

Heydari, Payam; Pedram, Massoud

doi:10.1109/tvlsi.2003.810785

Cited by 85 publications

(57 citation statements)

References 16 publications

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“…Of course, insertion of the right amount of decoupling capacitors at the right places in the supply distribution network can help alleviate the inductive voltage drop effects [52].…”

Section: Effect On P/g Integritymentioning

confidence: 99%

Thermal Modeling, Analysis, and Management in VLSI Circuits: Principles and Methods

2006

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“…Of course, insertion of the right amount of decoupling capacitors at the right places in the supply distribution network can help alleviate the inductive voltage drop effects [52].…”

Section: Effect On P/g Integritymentioning

confidence: 99%

Thermal Modeling, Analysis, and Management in VLSI Circuits: Principles and Methods

2006

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“…c. Significant power loss in shoot-through current: During switching of the inverter chain, there is a shoot-through current flowing from the V reg node to ground. Such dynamic current causes the V reg voltage to drop (Heydari & Pedram, 2003). Since the operating voltage is 30V, the power of the shoot-through current still contributes much to the power loss.…”

Section: Power-saving: LV Devices In Hv Applicationmentioning

confidence: 99%

A 7V-to-30V-Supply 190A/µs Regulated Gate Driver in a 5V CMOS-Compatible Process

Ng¹,

So²,

Kwan³

et al. 2010

Advances in Solid State Circuit Technologies

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“…Since the charger-recycling transistor is usually much smaller than the sleep transistors, the leakage-increase ratio given in (20) is usually too small when compared to the power saving achieved by using the charge-recycling technique.…”

Section: A Leakage Currentmentioning

confidence: 99%

“…The sleep transistor is turned on at t=0 when the initial voltage of C G is V 0 , i.e., V G (t=0)=V 0 . Based on the results of [20], the positive peak of the GB occurs during the time when S N operates in the saturation region. If we neglect the channel length modulation effect, the saturation current of S N does not depend on V 0 .…”

Section: B Ground Bouncementioning

confidence: 99%

Charge Recycling in Power-Gated CMOS Circuits

Pakbaznia

Fallah

Pedram

2008

IEEE Trans. Comput.-Aided Des. Integr. Circuits Syst.

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Abstract-Design of a suitable power gating (e.g., multithreshold CMOS or super cutoff CMOS) structure is an important and challenging task in sub-90nm VLSI circuits where leakage currents are significant. In designs where the mode transitions are frequent, a significant amount of energy is consumed to turn on or off the power gating structure. It is thus desirable to develop a power gating solution that minimizes the energy consumed during mode transitions. This paper presents such a solution by recycling charge between the virtual power and ground rails immediately after entering the sleep mode and just before wakeup. The proposed method can save up to 43% of the dynamic energy wasted during mode transition while maintaining the wake up time of the original circuit. It also reduces the peak negative voltage value and the settling time of the ground bounce.

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Ground bounce in digital VLSI circuits

Cited by 85 publications

References 16 publications

Thermal Modeling, Analysis, and Management in VLSI Circuits: Principles and Methods

Thermal Modeling, Analysis, and Management in VLSI Circuits: Principles and Methods

A 7V-to-30V-Supply 190A/µs Regulated Gate Driver in a 5V CMOS-Compatible Process

Charge Recycling in Power-Gated CMOS Circuits

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