University of Pittsburgh Department of Electrical and Computer Engineering转发了
I’m delighted that our paper on ultra-high endurance, non-reciprocal memory was published in Nature Photonics! It is quite rare for a single technology to solve so many major challenges simultaneously, but that was precisely what we observed: sub-pJ programming energies, nanosecond programming speeds, multi-level operation, symmetric weight encoding, and programming voltages compatible with the most advanced CMOS nodes. Additionally, by leveraging the same materials used in hard drives, we were also able to achieve billions of non-volatile write and erase cycles without any device degradation! This work could not have happened without our amazing team of collaborators at UC Santa Barbara, Università degli Studi di Cagliari, Institute of Science Tokyo (Science Tokyo) and University of Pittsburgh: Paolo Pintus, Yuya Shoji, John Bowers, Galan Moody, Mario Dumont, Duanni Huang, Vivswan Shah, and Toshiya Murai. https://lnkd.in/gQGihtUi
Very impressive. But can you still make the most golden-browniest pancakes?
Congrats ?? I generate a podcast about this paper, let me know if you like it or if there and any technical inaccuracies https://www.dhirubhai.net/posts/andrea-bertoncini-ph-d-5085517a_encoding-data-in-rings-of-light-activity-7262856264165052420-VW4w?utm_source=share&utm_medium=member_desktop
Harish Bhaskaran
3 周
Wonderful work by Nathan Youngblood and collaborators, superbly written!
Souvik Biswas
3 周
Beautiful work!
Congrats!!
Paul Ohodnicki
3 周
Congratulations!
Shoufeng Lan
3 周
Great work, Nathan! Congrats!
Nathan Lindquist
3 周
Congratulations Nathan. Very neat work!
Amr Mahmoud, PhD
3 周
Congrats, Nathan!
Very informative. Congratulations! Figure 3a is showing perfect transmission! - I thought previous results from UCSB and MIT groups had shown massive optical insertion loss on interactions with the YIG. What have you done differently?