D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Electronics and Electrical Engineering D-index 82 Citations 24,467 390 World Ranking 133 National Ranking 73

Research.com Recognitions

Awards & Achievements

2011 - IEEE Fellow For contributions to low power microprocessor design

Fellow of the Indian National Academy of Engineering (INAE)

Overview

What is he best known for?

The fields of study he is best known for:

  • Electrical engineering
  • Integrated circuit
  • Transistor

Vivek De focuses on Electronic engineering, CMOS, Electrical engineering, Voltage and Electronic circuit. His Electronic engineering study incorporates themes from Microprocessor, Transistor and Efficient energy use. The concepts of his CMOS study are interwoven with issues in Chip, Low-power electronics, Leakage, PMOS logic and Technology scaling.

His research integrates issues of Biasing, AC power and Voltage regulation in his study of Low-power electronics. His Voltage study combines topics from a wide range of disciplines, such as Scaling, Circuit design, Semiconductor and Microarchitecture. His Electronic circuit research is multidisciplinary, incorporating perspectives in Clock rate, Very-large-scale integration, Reduction and Dynamic voltage scaling.

His most cited work include:

  • Parameter variations and impact on circuits and microarchitecture (1309 citations)
  • Adaptive body bias for reducing impacts of die-to-die and within-die parameter variations on microprocessor frequency and leakage (726 citations)
  • A 48-Core IA-32 message-passing processor with DVFS in 45nm CMOS (535 citations)

What are the main themes of his work throughout his whole career to date?

His primary areas of investigation include Electronic engineering, Electrical engineering, CMOS, Voltage and Transistor. The Electronic engineering study combines topics in areas such as Microprocessor, Electronic circuit, Low-power electronics and Leakage. His Threshold voltage, Capacitor, Low voltage, Biasing and Field-effect transistor study are his primary interests in Electrical engineering.

Vivek De works mostly in the field of CMOS, limiting it down to concerns involving Voltage regulator and, occasionally, Side channel attack. His study brings together the fields of Optoelectronics and Voltage. His Transistor research is mostly focused on the topic Memory cell.

He most often published in these fields:

  • Electronic engineering (52.51%)
  • Electrical engineering (37.47%)
  • CMOS (33.55%)

What were the highlights of his more recent work (between 2015-2021)?

  • CMOS (33.55%)
  • Electronic engineering (52.51%)
  • Voltage regulator (8.28%)

In recent papers he was focusing on the following fields of study:

His primary scientific interests are in CMOS, Electronic engineering, Voltage regulator, Electrical engineering and Voltage. His work carried out in the field of CMOS brings together such families of science as Control theory, Efficient energy use, Logic gate and Flip-flop. In his study, Low voltage is strongly linked to Dropout voltage, which falls under the umbrella field of Electronic engineering.

His study on Voltage regulator also encompasses disciplines like

  • Side channel attack which connect with Embedded system, Power management, Dither and Key,
  • Encryption that connect with fields like Overhead and Adversary,
  • Advanced Encryption Standard, which have a strong connection to Topology, Information leakage and Leakage. His studies link Energy harvesting with Electrical engineering. His studies deal with areas such as Interconnection and Static random-access memory as well as Voltage.

Between 2015 and 2021, his most popular works were:

  • A 4-fJ/b Delay-Hardened Physically Unclonable Function Circuit With Selective Bit Destabilization in 14-nm Trigate CMOS (43 citations)
  • Enabling Wide Autonomous DVFS in a 22 nm Graphics Execution Core Using a Digitally Controlled Fully Integrated Voltage Regulator (40 citations)
  • 8.1 Improved power-side-channel-attack resistance of an AES-128 core via a security-aware integrated buck voltage regulator (32 citations)

In his most recent research, the most cited papers focused on:

  • Electrical engineering
  • Integrated circuit
  • Transistor

Vivek De mostly deals with CMOS, Electronic engineering, Voltage regulator, Voltage and Efficient energy use. In his study, he carries out multidisciplinary CMOS and Physical unclonable function research. Vivek De interconnects Transistor, Voltage droop, Settling time and Electrical engineering in the investigation of issues within Electronic engineering.

Vivek De works mostly in the field of Electrical engineering, limiting it down to topics relating to Energy harvesting and, in certain cases, Flash memory, Subthreshold conduction, Power gating and Wireless sensor network, as a part of the same area of interest. His Voltage regulator research is multidisciplinary, relying on both Side channel attack, Inductor, Embedded system and Inductance. Vivek De has researched Efficient energy use in several fields, including Frequency scaling and Industrial engineering.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Parameter variations and impact on circuits and microarchitecture

Shekhar Borkar;Tanay Karnik;Siva Narendra;Jim Tschanz.
design automation conference (2003)

1787 Citations

Adaptive body bias for reducing impacts of die-to-die and within-die parameter variations on microprocessor frequency and leakage

J.W. Tschanz;J.T. Kao;S.G. Narendra;R. Nair.
international solid-state circuits conference (2002)

1092 Citations

A 48-Core IA-32 message-passing processor with DVFS in 45nm CMOS

Jason Howard;Saurabh Dighe;Yatin Hoskote;Sriram Vangal.
international solid-state circuits conference (2010)

787 Citations

A 48-Core IA-32 Processor in 45 nm CMOS Using On-Die Message-Passing and DVFS for Performance and Power Scaling

J Howard;S Dighe;S R Vangal;G Ruhl.
IEEE Journal of Solid-state Circuits (2011)

471 Citations

A stochastic wire-length distribution for gigascale integration (GSI). I. Derivation and validation

J.A. Davis;V.K. De;J.D. Meindl.
IEEE Transactions on Electron Devices (1998)

464 Citations

Technology and design challenges for low power and high performance

Vivek De;Shekhar Borkar.
international symposium on low power electronics and design (1999)

447 Citations

Dynamic-sleep transistor and body bias for active leakage power control of microprocessors

J.W. Tschanz;S.G. Narendra;Y. Ye;B.A. Bloechel.
international solid-state circuits conference (2003)

432 Citations

Scaling of stack effect and its application for leakage reduction

S. Narendra;S. Borkar;V. De;D. Antoniadis.
international symposium on low power electronics and design (2001)

421 Citations

A new technique for standby leakage reduction in high-performance circuits

Y. Ye;S. Borkar;V. De.
symposium on vlsi circuits (1998)

405 Citations

Energy-Efficient and Metastability-Immune Resilient Circuits for Dynamic Variation Tolerance

Keith A. Bowman;James W. Tschanz;Nam Sung Kim;Janice C. Lee.
IEEE Journal of Solid-state Circuits (2009)

386 Citations

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