Zobrazeno 1 - 10
of 26
pro vyhledávání: '"Moray McLaren"'
Publikováno v:
IEEE Micro. 33:14-21
A first step toward advanced optical interconnect technologies is a data-center switch using a multibus optical backplane. This network switch replaces the electronic backplane and communications fabric application-specific integrated circuit (ASIC)
Autor:
Moray McLaren
Publikováno v:
OFC
Today's large scale data center networks are both massively scalable and highly resilient, typically using custom designed software and hardware. What factors drive the design, and how will they develop in the future?
Autor:
Norm Jouppi, Robert Schreiber, Al Davis, Nathan Binkert, Naveen Muralimanohar, Moray McLaren, Jung Ho Ahn
Publikováno v:
IEEE Micro. 32:100-109
Networking consumes up to 33 percent of modern data center power. Network switches are the key source of inefficiency: a switch traversal costs an order of magnitude more than a link traversal. The authors propose a new high-radix switch architecture
Autor:
Moray McLaren, Jung Ho Ahn, Norman P. Jouppi, Naveen Muralimanohar, Robert Schreiber, Al Davis, Nathan Binkert
Publikováno v:
ISCA
For large-scale networks, high-radix switches reduce hop and switch count, which decreases latency and power. The ITRS projections for signal-pin count and per-pin bandwidth are nearly flat over the next decade, so increased radix in electronic switc
Autor:
Moray McLaren, Sagi Mathai, Terrel L. Morris, Shih-Yuan Wang, Joseph Straznicky, Jong-Souk Yeo, Paul Kessler Rosenberg, M. Tan, Huei Pei Kuo, Norman P. Jouppi
Publikováno v:
IEEE Micro. 29:62-73
Signal integrity constraints of high-speed electronics have made multidrop electrical buses infeasible. This high-speed alternative uses hollow metal waveguides and pellicle beam splitters that interconnect modules attached to the bus. With 1 mw of l
Autor:
Joseph Straznicky, Sagi Mathai, Jong-Souk Yeo, Terry Morris, Paul Kessler Rosenberg, Norman P. Jouppi, Moray McLaren, Michael Tan, Huei Pei Kuo, Shih Yuan Wang
Publikováno v:
Applied Physics A. 95:945-953
Buses have historically provided a flexible communications structure in computer systems. However, signal integrity constraints of high-speed electronics have made multi-drop electrical buses infeasible. Instead, we propose an optical data bus for co
Autor:
Paul Kessler Rosenberg, Sagi Mathai, Lennie Kiyama, Joseph Straznicky, Moray McLaren, Shih-Yuan Wang, Robert G. Walmsley, Huei Pei Kuo, Michael Tan
Publikováno v:
Applied Physics A. 95:955-965
We describe two free-space optical links for multichannel optical interconnects. The targeted aggregate data rate is 240 Gb/s. In one implementation we use a unique implementation of telecentric optics and achieved an optical link that is simple, rob
Autor:
Wayne V. Sorin, David A. Warren, Lennie Kiyama, Joseph Straznicky, Georgios Panotopoulos, Paul Kessler Rosenberg, Meng Peun Tan, Sagi Mathai, Moray McLaren
Publikováno v:
OFC
An all optically connected data center switch with a Multi-Bus Optical Backplane is demonstrated. The broadcast bus is based on a multimode zig-zag star coupler capable of 1:6 optical broadcast on 12 multi-mode GI fiber channels.
Autor:
Naveen Muralimanohar, Robert Schreiber, Norman P. Jouppi, Al Davis, Jung Ho Ahn, Nathan Binkert, Moray McLaren
Publikováno v:
Optical Networks ISBN: 9781461446293
The datacenter today is almost everybody’s other computer. The primary computer is increasingly a mobile device such as a smart phone, tablet, or laptop. The bulk of both the computing and the storage is done in the datacenter since the mobile devi
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::5fcf1b966272474da50129b71a0f0b3a
https://doi.org/10.1007/978-1-4614-4630-9_5
https://doi.org/10.1007/978-1-4614-4630-9_5
Autor:
Wayne V. Sorin, David A. Warren, Georgios Panotopoulos, Moray McLaren, Paul Kessler Rosenberg, Meng Peun Tan, Sagi Mathai, Terry Morris, Joseph Straznicky
Publikováno v:
SPIE Proceedings.
A low cost, blind mate, injection molded optical backplane is presented. The optical backplane is comprised of 12 channel optical broadcast buses, operating at 10Gbps/channel with six blindmate optical output ports spaced 1U apart.