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100Gパケットの光チップがOTN導入を促進

100G Packet-Optical Chips Drive OTN Deployment

発行 Heavy Reading 商品コード 294260
出版日 ページ情報 英文 23 Pages
納期: 即日から翌営業日
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本日の銀行送金レート: 1USD=115.27円で換算しております。
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100Gパケットの光チップがOTN導入を促進 100G Packet-Optical Chips Drive OTN Deployment
出版日: 2013年07月01日 ページ情報: 英文 23 Pages
概要

現在、パケット光伝送はキャリアのネットワーク全体で幅広く用いられており、また長距離接続に高い信頼性があるためネットワークの中心で用いられています。半導体コンポーネントはパケット光伝送網の継続的な成功にとっての鍵です。ベンダーは10Gbit/s、40Gbit/sそして現在は100Gbit/sにおいて、インターフェース、機能および性能の複雑なミックスをサポートする、高度に統合されたシステムオンチップ(SoC)ソリューションを開発しています。通信機器メーカーはその他にFPGA、幅色いOTNおよびイーサネットIPブロックなどのソリューションを用いて、キャリアの要件に対応する極めて統合されたROADM、P-OTPおよびマイクロOTP(μ-OTP)を開発しています。主要ベンダーは既に、28Gbit/sシリアルインターフェースおよびCFP2光モジュール向けサポートを備えた、次世代100Gシステムに向けたソリューションに取り組んでいます。

当レポートでは、統合パケット光デバイスおよびOTNフレーマ/マッパーデバイス・技術について調査し、また機器メーカーのメリットを明らかにしており、コンポーネントの利用可能性、機能、性能および柔軟性のレビューなどをまとめ、50以上のデバイスとベンダー9社のプロファイルとともに、概略以下の構成でお届けいたします。

第1章 イントロダクション

第2章 パケット光伝送革命

  • 市場概要
  • 技術入門書
  • パケット光ネットワークシステム

第3章 OTNフレーマ/マッパー装置

  • 100/120Gbit/sフレーマ/マッパー
  • 40/60Gbit/sフレーマ/マッパー
  • 10/20Gbit/sフレーマ/マッパー

第4章 統合パケット光伝送装置

  • 100/120Gbit/s統合装置
  • 40/60Gbit/s統合装置
  • 10/20Gbit/s統合装置

第5章 デバイスベンダー

  • Altera
  • AppliedMicro
  • Broadcom
  • Cortina Systems
  • IP Light
  • Menara Networks
  • PMC-Sierra
  • Vitesse Semiconductor
  • Xelic
  • Xilinx

第6章 結論

目次
Product Code: Vol. 9, No. 2

Packet-optical transport is now widely used by carriers across their networks. It brings the advantages of Sonet/SDH (synchronous digital hierarchy), dense wavelength division multiplexing (DWDM) and packet-based networks, delivering a scalable and resilient transport infrastructure. Packet-optical transport is used in the core of the network providing a highly reliable long distance connection, in the metro providing a high bandwidth and resilient network and at the edge delivering carrier grade services to enterprises.

Semiconductor components are key to the continued success packet-optical transport networks. Vendors have developed highly integrated system on chip (SoC) solutions at 10 Gbit/s, 40 Gbit/s and now 100 Gbit/s, supporting a complex mix of interfaces, functionality and performance. Also available are field-programmable gate arrays (FPGAs) with almost 100 serial interfaces and a wide range of optical transport network (OTN) and Ethernet IP blocks. Using these solutions, telecom equipment manufacturers can develop highly integrated reconfigurable optical add-drop multiplexers (ROADM), P-OTP and micro OTP (μ-OTP) systems that address carriers' requirements.

Packet-optical transport is a key focus for both carriers and telecom equipment manufacturers. There are now have a wide range of 10Gbit/s, 40Gbit/s and 100Gbit/s OTN framer/mapper devices and integrated packet-optical transport devices from AppliedMicro, Cortina Systems, IP Light, PMC-Sierra and Vitesse. Altera and Xilinx have made significant efforts to ensure the latest FPGA's support the high data rate interfaces required for packet-optical transport devices. By using internal developments, making acquisitions and working with third-party IP vendors, such as Xelic, both Altera and Xilinx are offering customers a quick development solution for FPGA-based integrated optical transport devices.

All the leading vendors are already working on solutions for the next-generation 100G systems with support for 28Gbit/s serial interfaces and CFP2 optical modules. Time to market, flexibility and integration will be key parameters as telecom equipment providers choose their next-generation packet-optical transport technology. The winners will be those that can show market leading performance and integration at 10 Gbit/s, 40 Gbit/s and 100 Gbit/s, with a clear roadmap to 400G within one to two years.

100G Packet-Optical Chips Drive OTN Deployment details and analyzes integrated packet-optical devices and OTN framer/mapper devices and technologies, identifying the key requirements and the highlighting the advantages they hold for equipment manufacturers. It also surveys component availability, reviewing features, performance and flexibility. The report covers more than 50 devices and profiles nine vendors in this important market.

The following excerpt shows a P-OTP with a central OTN, Sonet/SDH and packet fabric switch. Optical line cards connect the system to the optical transport network. Transponder, muxponder and client cards connect the system to high-rate and low-rate OTN, Ethernet, Sonet/SDH and Fibre Channel networks. These systems contain multiple OTN framer/mapper or integrated packet-optical transport devices. OTN framer/mapper devices can also be used to build regenerators and aggregation systems.

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Companies profiled in this report include: Altera Corp. (Nasdaq: ALTR); Applied Micro Circuits Corp. (Nasdaq: AMCC); Cortina Systems Inc.; IP Light Ltd.; Menara Networks Inc.; PMC-Sierra Inc. (Nasdaq: PMCS); Vitesse Semiconductor Corp. (Nasdaq: VTSS); Xelic Inc.; and Xilinx Inc. (Nasdaq: XLNX).

Table of Contents

I. Introduction

II. Packet-Optical Transport Revolution

  • Market Overview
  • Technology Primter
  • Packet-Optical Network Systems

III. OTN Framer/Mapper Devices

  • 100/120Gbits Framer/Mappers
  • 40/60Gbit/s Framer/Mappers
  • 10/20Gbit/s Framer/Mappers

IV. Integrated Packet-Optical Transport Devices

  • 100/120Gbits Integrated Devices
  • 40/60Gbit/s Integrated Devices
  • 10/20Gbit/s Integrated Devices

V. Device Vendors

  • Altera
  • AppliedMicro
  • Broadcom
  • Cortina Systems
  • IP Light
  • Menara Networks
  • PMC-Sierra
  • Vitesse Semiconductor
  • Xelic
  • Xilinx

Vi. Conclusions

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