Autotuning of Integrated Inductive Voltage Regulator Using On-Chip Delay Sensor to Tolerate Process and Passive Variations

Autotuning of Integrated Inductive Voltage Regulator Using On-Chip Delay Sensor to Tolerate Process and Passive Variations

This paper demonstrates autotuning of the coefficients of the feedback loop of an inductive integrated voltage regulator (IVR) using an on-chip delay sensor. The proposed approach improves the effective performance of the digital core under variations in the on-die/package integrated passives and tr...

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Veröffentlicht in:IEEE transactions on very large scale integration (VLSI) systems 2019-08, Vol.27 (8), p.1768-1778
Hauptverfasser: Chekuri, Venkata Chaitanya Krishna, Kar, Monodeep, Singh, Arvind, Mukhopadhyay, Saibal
Format: Artikel
Sprache:eng
Schlagworte:
Auto tuning
CMOS
Control theory
Delay lines
delay-based tuning
Delays
dynamic voltage frequency scaling (DVFS)
Encryption
Engines
Feedback loops
IVR
performance-based tuning
Proportional integral derivative
Regulators
Sensors
System-on-chip
Transient analysis
Tuning
Vernier delay chains
Voltage
Voltage control
Voltage regulators
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Beschreibung
Zusammenfassung:This paper demonstrates autotuning of the coefficients of the feedback loop of an inductive integrated voltage regulator (IVR) using an on-chip delay sensor. The proposed approach improves the effective performance of the digital core under variations in the on-die/package integrated passives and transistor process. A 130-nm CMOS test-chip is designed containing a multisampled 125-MHz IVR with a wirebond inductor, on-die capacitor, and all-digital proportional-integral-differential (PID) controller powering a parallel Advanced Encryption Standard (AES) engine. The autotuning is performed using a Vernier delay line based on-chip delay sensor and an all-digital tuning engine. The measurement results demonstrate up to 5.2% improvement in the maximum operating frequency of the AES core using performance-based autotuning.
ISSN:1063-8210
1557-9999
DOI:10.1109/TVLSI.2019.2912141