M
M. Buehler
Researcher at Intel
Publications - 11
Citations - 3053
M. Buehler is an academic researcher from Intel. The author has contributed to research in topics: PMOS logic & Logic gate. The author has an hindex of 11, co-authored 11 publications receiving 2873 citations.
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.
Journal ArticleDOI
A 90-nm logic technology featuring strained-silicon
Scott E. Thompson,Mark Armstrong,C. Auth,Mohsen Alavi,M. Buehler,R. Chau,S. Cea,Tahir Ghani,G. Glass,T. Hoffman,Chia-Hong Jan,C. Kenyon,Jason Klaus,K. Kuhn,Z. Ma,B. McIntyre,Kaizad Mistry,Anand Portland Murthy,B. Obradovic,Ramune Nagisetty,P. Nguyen,Swaminathan Sivakumar,R. Shaheed,Lucian Shifren,B. Tufts,S. Tyagi,M. Bohr,Y. El-Mansy +27 more
TL;DR: In this paper, a leading-edge 90-nm technology with 1.2-nm physical gate oxide, 45-nm gate length, strained silicon, NiSi, seven layers of Cu interconnects, and low/spl kappa/CDO for high-performance dense logic is presented.
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 90 nm logic technology featuring 50 nm strained silicon channel transistors, 7 layers of Cu interconnects, low k ILD, and 1 /spl mu/m/sup 2/ SRAM cell
Scott E. Thompson,Nidhi Anand,Mark Armstrong,C. Auth,B. Arcot,Mohsen Alavi,P. Bai,J. Bielefeld,Robert M. Bigwood,J. Brandenburg,M. Buehler,Stephen M. Cea,V. Chikarmane,C. H. Choi,R. Frankovic,Tahir Ghani,G. Glass,W. Han,Thomas Hoffmann,Makarem A. Hussein,P. Jacob,Ajay Jain,Chia-Hong Jan,Subhash M. Joshi,C. Kenyon,Jason Klaus,S. Klopcic,J. Luce,Z. Ma,B. McIntyre,Kaizad Mistry,Anand Portland Murthy,P. Nguyen,H. Pearson,T. Sandford,R. Schweinfurth,R. Shaheed,Swaminathan Sivakumar,M. Taylor,B. Tufts,Charles H. Wallace,P.-H. Wang,Cory E. Weber,Mark T. Bohr +43 more
TL;DR: In this paper, a leading edge 90 nm technology with 1.2 nm physical gate oxide, 50 nm gate length, strained silicon, NiSi, 7 layers of Cu interconnects, and low k carbon-doped oxide (CDO) for high performance dense logic is presented.
Proceedings ArticleDOI
A 32nm SoC platform technology with 2 nd generation high-k/metal gate transistors optimized for ultra low power, high performance, and high density product applications
C.-H. Jan,M. Agostinelli,M. Buehler,Zhanping Chen,S.-J. Choi,G. Curello,H. Deshpande,S. Gannavaram,Hafez Walid M,U. Jalan,M. Kang,Pramod Kolar,K. Komeyli,B. Landau,A. Lake,N. Lazo,Seung Hwan Lee,T. Leo,J. Lin,Nick Lindert,S. Ma,L. McGill,C. Meining,A. Paliwal,Joodong Park,K. Phoa,Ian R. Post,N. Pradhan,M. Prince,Abdur Rahman,J. Rizk,L. Rockford,G. Sacks,A. Schmitz,H. Tashiro,Curtis Tsai,P. Vandervoorn,J. Xu,L. Yang,J.-Y. Yeh,J. Yip,Kevin Zhang,Yuegang Zhang,P. Bai +43 more
TL;DR: The low gate leakage of the high-k gate dielectric enables the triple transistor architecture to support ultra low power, high performance, and high voltage tolerant I/O devices concurrently.