712 research outputs found
MILLIMETER-WAVE WIRELESS NETWORK-ON-CHIP: A CMOS COMPATIBLE INTERCONNECTION INFRASTRUCTURE FOR FUTURE MANY-CORE PROCESSORS
Thesis (Ph.D.), School of Electrical Engineering and Computer Science, Washington State UniversityMulti-core platforms are emerging trends in the design of Systems-on-Chip (SoCs). Interconnect fabrics for these multi-core SoCs play a crucial role in achieving the target performance. The Network-on-Chip (NoC) paradigm has been proposed as a promising solution for designing the interconnect fabric of multi-core SoCs. But the performance requirements of NoC infrastructures in future technology nodes cannot be met by relying only on material innovation with traditional scaling. The continuing demand for low power and high speed interconnects with technology scaling necessitates looking beyond the conventional planar metal/dielectric-based interconnect infrastructures. Among different possible alternatives, the on-chip wireless communication network is envisioned as a revolutionary methodology, capable of bringing significant performance gains for multi-core SoCs. Millimeter-wave Wireless NoCs (mWNoCs) can be designed by using miniaturized on-chip antennas as an enabling technology. On-chip CMOS compatible millimeter-wave wireless links provide high bandwidth and low power communication channels over long distances. Hence they can be used to create short cuts between distant cores on the chip to provide fast and efficient traffic freeways. From standard network topologies used in traditional NoCs we move towards nature inspired ones like the Small-World graph. Such topologies inherently have low average inter-core distances and scale very well with increase in size. In this work, design methodologies and technology requirements for scalable mWNoC architectures are presented and their performance is evaluated. It is demonstrated that mWNoCs outperform their wired counterparts in terms of network throughput and latency, and that energy dissipation improves by orders of magnitude under various experimental and real-life scenarios.Department of Electrical Engineering, Washington State Universit
Lesbian Radio, August 15 2012
Host Deb Gallagher talks again with Leela Sinha, author of You’re Not Too Much: Intensive Lies in an Expansive World, about the fundamentals of good communication.https://digitalcommons.usm.maine.edu/wmpg_lesbianradio/1002/thumbnail.jp
Lesbian Radio, June 20 2012
Host Deb Gallagher talks with Leela Sinha, author of You’re Not Too Much: Intensive Lies in an Expansive World, about the fundamentals of good communication.https://digitalcommons.usm.maine.edu/wmpg_lesbianradio/1001/thumbnail.jp
Herbalist Deb Soule, author of The Roots of Healing: A Woman\u27s Book of Herbs,
Herbalist Deb Soule, author of The Roots of Healing: A Woman\u27s Book of Herbs, founded Avena Botanicals of Rockland ten years ago. Avena Botanicals, perhaps the largest herbal apothecary in the Northeast, grows or gathers around 60 percent of the raw plant materials used in producing herbal extracts, oils, salves and teas. The Shaker Community of Sabbath Day Lake has an herbal tradition that is 200 years old, and the herb department is the Shakers\u27 largest industry. Pol Hermes of Dayton, Gail Edwards of Athens and Betty Chase of Falmouth are other Mainers who use herbs. Details
Increasing fuel resilience to survive Cascadia
prepared by Oregon Seismic Safety Policy Advisory Commission, Working Group on CEI Hub Mitigation Strategies ; production writer: Laura Hall ; production assistant: Deb Schueller.Title from PDF cover (viewed on January 15, 2020)."OSSPAC Publication Number 19-01."This archived document is maintained by the State Library of Oregon as part of the Oregon Documents Depository Program. It is for informational purposes and may not be suitable for legal purposes.Includes bibliographical references (pages 31-32).Mode of access: Internet from the Oregon Government Publications Collection.Text in English
A NoC-Based Spatial DNN Inference Accelerator With Memory-Friendly Dataflow
This article addresses the challenges of excessive storage overhead and the absence of sparsity-aware design in Network-on-Chip (NoC)-based spatial deep neural network accelerators. The authors present a prototype chip that outperforms existing accelerators in both energy and area efficiency, demonstrated on TSMC 28-nm process technology. —Mahdi Nikdast, Colorado State University, USA —Miquel Moreto, Barcelona Supercomputing Center, Spain —Masoumeh (Azin) Ebrahimi, KTH Royal Institute of Technology, Sweden —Sujay Deb, IIIT Delhi, India</p
Designing an intelligent blink analyzer tool for effective human computer interaction through eye
Single Key Omni directional Pointing and command System (SKOPS) -a smart on screen navigational tool for physically disabled persons
Graduate medical education in 2030 (Podcast)
In the June issue of the Journal of Graduate Medical Education, an editorial explores what graduate medical education will look like in 2030. In this episode, JGME deputy editor, Deb Simpson, speaks with physician, educator, and author, James Woolliscroft, about the future of graduate medical education, especially in the wake of the COVID-19 pandemic. They discuss the roles of the DIO, program director, and faculty as well as the impact of technology on the medical education system
Graduate medical education in 2030 (Podcast)
In the June issue of the Journal of Graduate Medical Education, an editorial explores what graduate medical education will look like in 2030. In this episode, JGME deputy editor, Deb Simpson, speaks with physician, educator, and author, James Woolliscroft, about the future of graduate medical education, especially in the wake of the COVID-19 pandemic. They discuss the roles of the DIO, program director, and faculty as well as the impact of technology on the medical education system
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