R
R. Grover
Researcher at Intel
Publications - 34
Citations - 3754
R. Grover is an academic researcher from Intel. The author has contributed to research in topics: Resonator & Logic gate. The author has an hindex of 17, co-authored 34 publications receiving 3497 citations. Previous affiliations of R. Grover include ELAM & University of Maryland, College Park.
Papers
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Proceedings ArticleDOI
A 45nm Logic Technology with High-k+Metal Gate Transistors, Strained Silicon, 9 Cu Interconnect Layers, 193nm Dry Patterning, and 100% Pb-free Packaging
Kaizad Mistry,C. Allen,C. Auth,B. Beattie,Daniel B. Bergstrom,M. Bost,M. Brazier,M. Buehler,Annalisa Cappellani,R. Chau,C. H. Choi,G. Ding,K. Fischer,Tahir Ghani,R. Grover,W. Han,D. Hanken,M. Hattendorf,J. He,J. Hicks,R. Huessner,D. Ingerly,Pulkit Jain,R. James,L. Jong,Subhash M. Joshi,C. Kenyon,K. Kuhn,K. Lee,Huichu Liu,J. Maiz,B. Mclntyre,P. Moon,J. Neirynck,S. Pae,C. Parker,D. Parsons,Chetan Prasad,L. Pipes,M. Prince,Pushkar Ranade,T. Reynolds,J. Sandford,Lucian Shifren,J. Sebastian,J. Seiple,D. Simon,Swaminathan Sivakumar,Pete Smith,C. Thomas,T. Troeger,P. Vandervoorn,S. Williams,K. Zawadzki +53 more
TL;DR: In this paper, a 45 nm logic technology is described that for the first time incorporates high-k + metal gate transistors in a high volume manufacturing process, resulting in the highest drive currents yet reported for NMOS and PMOS.
Proceedings ArticleDOI
A 22nm high performance and low-power CMOS technology featuring fully-depleted tri-gate transistors, self-aligned contacts and high density MIM capacitors
C. Auth,C. Allen,A. Blattner,Daniel B. Bergstrom,Mark R. Brazier,M. Bost,M. Buehler,V. Chikarmane,Tahir Ghani,Timothy E. Glassman,R. Grover,W. Han,D. Hanken,Michael L. Hattendorf,P. Hentges,R. Heussner,J. Hicks,D. Ingerly,Pulkit Jain,S. Jaloviar,Robert James,David Jones,J. Jopling,Subhash M. Joshi,C. Kenyon,Huichu Liu,R. McFadden,B. McIntyre,J. Neirynck,C. Parker,L. Pipes,Ian R. Post,S. Pradhan,M. Prince,S. Ramey,T. Reynolds,J. Roesler,J. Sandford,J. Seiple,Pete Smith,Christopher D. Thomas,D. Towner,T. Troeger,Cory E. Weber,P. Yashar,K. Zawadzki,Kaizad Mistry +46 more
TL;DR: In this paper, a 22nm generation logic technology is described incorporating fully-depleted tri-gate transistors for the first time, which provides steep sub-threshold slopes (∼70mV/dec) and very low DIBL ( ∼50m V/V).
Proceedings ArticleDOI
A 14nm logic technology featuring 2 nd -generation FinFET, air-gapped interconnects, self-aligned double patterning and a 0.0588 µm 2 SRAM cell size
Sanjay Natarajan,M. Agostinelli,S. Akbar,M. Bost,A. Bowonder,V. Chikarmane,S. Chouksey,A. Dasgupta,K. Fischer,Q. Fu,Tahir Ghani,M. Giles,S. Govindaraju,R. Grover,W. Han,D. Hanken,E. Haralson,M. Haran,M. Heckscher,R. Heussner,Pulkit Jain,R. James,R. Jhaveri,I. Jin,Hei Kam,Eric Karl,C. Kenyon,Mark Y. Liu,Y. Luo,R. Mehandru,S. Morarka,L. Neiberg,Paul A. Packan,A. Paliwal,C. Parker,P. Patel,R. Patel,C. Pelto,L. Pipes,P. Plekhanov,M. Prince,S. Rajamani,J. Sandford,Sell Bernhard,Swaminathan Sivakumar,Pete Smith,B. Song,K. Tone,T. Troeger,J. Wiedemer,M. Yang,Kevin Zhang +51 more
TL;DR: In this paper, a 14nm logic technology using 2nd-generation FinFET transistors with a novel subfin doping technique, self-aligned double patterning (SADP) for critical patterning layers, and air-gapped interconnects at performance-critical layers is described.
Journal ArticleDOI
Optical signal processing using nonlinear semiconductor microring resonators
TL;DR: In this paper, a theoretical analysis shows a maximum reduction in the switching power proportional to the fourth power of the field enhancement in the microring and an enhancement in wavelength conversion efficiency by four-wave mixing.
Journal ArticleDOI
All-optical nonlinear switching in GaAs-AlGaAs microring resonators
TL;DR: In this article, the pump and probe signals are tuned to different resonance wavelengths of the microring and the probe beam is switched in and out of resonance in a pump-and-probe configuration.