Scaling Internet Routers Using Optics∗ Isaac Keslassy, Shang-Tse Chuang, Kyoungsik Yu, David Miller, Mark Horowitz, Olav Solgaard, Nick McKeown Stanford University ABSTRACT - Nick McKeown - Document - PDFSEARCH.IO - Document Search Engine

Back to Results

First Page	Meta Content
	Scaling Internet Routers Using Optics∗ Isaac Keslassy, Shang-Tse Chuang, Kyoungsik Yu, David Miller, Mark Horowitz, Olav Solgaard, Nick McKeown Stanford University ABSTRACT Add to Reading List Document Date: 2003-07-24 11:26:23 Open Document File Size: 250,85 KB Share Result on Facebook Company L 2 Group 2 Linecard 2 Group / Linecard L MxL Crossbar W Group 1 Group / M Linecard 1 Linecard L 2 Group / Switches Linecard L MxL Crossbar W Group / Passive Optical Star Coupler Group / Cisco Systems / MEMS Static MEMS Group / Linecard 6 Group / MxL Local Switch M GxG Middle Switch Group / Linecard 4 Group / Texas Instruments / GxG MEMS Linecard 1 MxL Crossbar M Group / M Linecard L Linecard 2 Group / Crossbar Linecard 1 2 3 Group / L 1 3 GxG Middle Switch Group / GxG Middle Switch Linecard 2 Linecard L Group / / Country Germany / / Currency USD / / Event Reorganization / / Facility Optical Switch Building / / IndustryTerm load-balancing device / optical device / 100Tb/s Internet router / higher capacity systems / optical devices / physical devices / multi-rack systems / serial link technology / Internet Routers / distribution algorithm / individual routers / shared-memory work-conserving router / polynomial-time algorithm / Diﬀerent systems / Internet RFC / capacity router / shared devices / hybrid electro-optical router / memory devices / optical technology / arrayed waveguide grating router / nd practical solutions / 100Tb/s router / Internet router / manufacturable technology / Internet traﬃc / buﬀer management algorithms / faster routers / using technology / maintenance infrastructure / brute force lookup algorithm / Internet providers / higher capacity single-stage routers / inside routers / opto-electronic devices / header processing / arbitration algorithms / maximal matching algorithms / enlarged network / capacity routers / multirack systems / throughput guarantees that network / in their network / / Organization DARPA/MARCO Center for Circuits / Systems and Software / Stanford Photonics Research Center / ASIC / Stanford University / / Person Isaac Keslassy / Stanford Photonics / Mark Horowitz / Nick McKeown / David Miller / Stanford Graduate / / / Position switch and central scheduler / system designer / Routers General / centralized scheduler / head / central scheduler / reported centralized scheduler / scheduler / / Product Linecard 1 MxL / / Technology 64-port router / serial link technology / RAM / shared-memory work-conserving router / least 100 chips / Internet routers / Internet router / distribution algorithm / arrayed waveguide grating router / buﬀer management algorithms / high-capacity router / 100Tb/s Internet router / ATM / hybrid electro-optical router / random access / SRAM / PRACTICALITY OF 100TB/S ROUTER / Multi-rack routers / 100Tb/s router / maximal matching algorithms / packet-switched / 4 Routers / crossbar chips / Scaling Internet Routers / laser / mature / manufacturable technology / packet switching / lasers / arbitration algorithms / INTRODUCTION AND MOTIVATION Routers / 100 Tb/s router / polynomial-time algorithm / ASIC technology / IPv4 / brute force lookup algorithm / high-capacity routers / / SocialTag Network architecture Electronics Ethernet Load-balanced switch Media Access Control Virtual Output Queues Crossbar switch Throughput Network switch Switches