J
Jason S. Orcutt
Researcher at IBM
Publications - 140
Citations - 5257
Jason S. Orcutt is an academic researcher from IBM. The author has contributed to research in topics: Silicon photonics & Photonics. The author has an hindex of 32, co-authored 139 publications receiving 4474 citations. Previous affiliations of Jason S. Orcutt include National Institute of Standards and Technology & Massachusetts Institute of Technology.
Papers
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Journal ArticleDOI
Single-chip microprocessor that communicates directly using light
Chen Sun,Chen Sun,Mark T. Wade,Yunsup Lee,Jason S. Orcutt,Jason S. Orcutt,Luca Alloatti,Michael Georgas,Andrew Waterman,Jeffrey M. Shainline,Jeffrey M. Shainline,Rimas Avizienis,Sen Lin,Benjamin Moss,Rajesh Kumar,Fabio Pavanello,Amir H. Atabaki,Henry Cook,Albert Ou,Jonathan Leu,Yu-Hsin Chen,Krste Asanovic,Rajeev J. Ram,Milos A. Popovic,Vladimir Stojanovic +24 more
TL;DR: This demonstration could represent the beginning of an era of chip-scale electronic–photonic systems with the potential to transform computing system architectures, enabling more powerful computers, from network infrastructure to data centres and supercomputers.
Journal ArticleDOI
Photonic ADC: overcoming the bottleneck of electronic jitter.
Anatol Khilo,Steven J. Spector,Matthew E. Grein,Amir H. Nejadmalayeri,C.W. Holzwarth,Michelle Y. Sander,Marcus S. Dahlem,Michael Y. Peng,Michael W. Geis,Nicole DiLello,Jung U. Yoon,Ali R. Motamedi,Jason S. Orcutt,J. P. Wang,Cheryl Sorace-Agaskar,Milos A. Popovic,Jie Sun,G.-R. Zhou,Hyunil Byun,Jian Chen,Judy L. Hoyt,Henry I. Smith,Rajeev J. Ram,Michael H. Perrott,Theodore M. Lyszczarz,Erich P. Ippen,Franz X. Kärtner +26 more
TL;DR: This work demonstrates that the photonic approach can deliver on its promise by digitizing a 41 GHz signal with 7.0 effective bits using a photonic ADC built from discrete components, a 4-5 times improvement over the performance of the best electronic ADCs which exist today.
Proceedings ArticleDOI
Building Manycore Processor-to-DRAM Networks with Monolithic Silicon Photonics
Christopher Batten,Ajay Joshi,Jason S. Orcutt,Anatol Khilo,B. Moss,C.W. Holzwarth,Milos A. Popovic,Hanqing Li,Henry I. Smith,Judy L. Hoyt,Franz X. Kärtner,Rajeev J. Ram,Vladimir Stojanovic,Krste Asanovic +13 more
TL;DR: A new monolithic silicon photonics technology suited for integration with standard bulk CMOS processes, which reduces costs and improves opto-electrical coupling compared to previous approaches is presented, which supports dense wavelength-division multiplexing with dozens of wavelengths per waveguide.
Journal ArticleDOI
Open foundry platform for high-performance electronic-photonic integration
Jason S. Orcutt,Benjamin Moss,Chen Sun,Jonathan Leu,Michael Georgas,Jeffrey M. Shainline,Eugen Zgraggen,Hanqing Li,Jie Sun,Matthew Weaver,Stevan Urosevic,Milos A. Popovic,Rajeev J. Ram,Vladimir Stojanovic +13 more
TL;DR: This paper presents photonic devices with 3 dB/cm waveguide loss fabricated in an existing commercial electronic 45 nm SOI-CMOS foundry process and demonstrates an 8-channel optical microring-resonator filter bank and optical modulators, both controlled by integrated digital circuits.
Journal ArticleDOI
Building Many-Core Processor-to-DRAM Networks with Monolithic CMOS Silicon Photonics
Christopher Batten,Ajay Joshi,Jason S. Orcutt,Anatol Khilo,B. Moss,C.W. Holzwarth,Milos A. Popovic,Hanqing Li,Henry I. Smith,Judy L. Hoyt,Franz X. Kärtner,Rajeev J. Ram,Vladimir Stojanovic,Krste Asanovic +13 more
TL;DR: A new monolithic silicon-photonic technology is introduced, which uses a standard bulk CMOS process to reduce costs and improve energy efficiency, and the logical and physical implications of leveraging this technology in processor-to-memory networks are explored.