寬頻乙太網路:遠距網路的點閱存取 - 技術·用途·市場

寬頻乙太網路:遠距網路的點閱存取 - 技術·用途·市場 是由出版商Practel, Inc.在2011年11月所出版的。 這份英文市場調查報告書價格從美金3990起跳。

簡介

龍頭網路通訊業者（電信業者）所提供的骨幹網路回線的容量，持續以年度75％∼125％擴大。寬頻網路的用戶激增，以及需要HDV等大容量回線的應用程式用戶的增加，公共及民間的網路在回線容量上，面對史無前例地終端用戶需求。其結果就是產生出擴張成本效益的網路容量。

本報告從技術及行銷方面，提供針對寬頻乙太網路(Ethernet)通訊的相關分析，各種網路等級的乙太網路增設相關資料，超高速通訊基本設備的迅速的發展，以及遠距網路點閱存取相關資訊，為您概述為以下內容。

第1章 簡介

第2章 長程與地方都會網幹:超高速技術與標準化流程

• 推動因素
• 組織
• 技術現況
• 標準化的優點和先進技術

第3章 產業(40GE·100GE)

• Alcatel-Lucent (Network Elements)
• Altera (ICs)
• Adva (Platform)
• Applied Micro (ICs)
• Avago (Modules)
• Brocade (100 Gb/s NE)
• Broadcom (ICs)
• Centellax (Modules)
• Cisco (NEs)
• Ciena (Switching and WDM Platforms)
• ClariPhy (Chipsets)
• Covega - Thorlabs Quantum Electronics (Modulators)
• CyOptics (Optical Chips)
• ECI (Platforms)
• Ekinops (DWDM)
• Ericsson (WDM)
• Extreme Networks (Ethernet Switches)
• Huawei (DWDM)
• Finisar (Modules)
• Fujikura (Modules)
• Fujitsu (ROADM)
• Inphi (ICs)
• Infinera (NEs)
• JDSU (Modules and ICs)
• Juniper (Router)
• GigOptix (ICs)
• Gtran (ICs)
• Ixia (Modules)
• MultiPHY (ICs)
• MRV (WDM)
• NEC (DWDM)
• NeoPhotonics (Modules)
• NetLogic (Modules)
• Nokia Siemens Networks (DWDM)
• Oclaro (ICs)
• Oki Semiconductor (ICs)
• OpVista (NEs) - Vello Systems
• Opnext (Platform)
• Picometrix (Optical Receivers)
• Reflex Photonics (Modules)
• Sarance Technologies (ICs) - Acquired by Xilinx in 2011
• Sembarc (Modules)
• Semtech (ICs)
• SEDU (Modules)
• Sorrento Networks (DWDM)
• Triquint (ICs)
• Tellabs (Platform)
• U2t Photonics (ICs)
• Voltaire (Switches)-Acquired by Mellanox
• Xilinx (ICs)
• Xtera (WDM)

第4章 服務供應商:40GE·100GE服務

• AT&T
• Global Crossing
• Level 3
• NTT
• Sprint
• Qwest (CenturyLink)
• SurfNet
• Telefonica
• TeliaSonera
• Verizon
• XO

第5章 市場:40GE·100GE

• 市場特徵
• 市場預測

第6章 邁向以乙太網路為基礎的PON的未來

• 理由
• 格式

第7章 GE-PON規格

• 概要
• 發送格式
• 速度
• MPCP
• Topology Emulation Sub-layer
• OAM
• FEC
• 安全
• QoS·GE-PON
• GE-PON vs. FSAN技術

第8章 GE-PON市場

• PON的商業化
• GE-PON市場預測

第9章 GE-PON供應商

第10章 10GE-PON

• 目標
• IEEE - 標準化
• 10GE-PON技術

第11章 IEEE vs. ITU

第12章 10GE-PON市場

• 概要
• 推動因素和適用對象
• 市場預測

第13章 10GE-PON供應商

第14章 結論

圖表

目錄

Abstract

The amount of backbone Internet bandwidth maintained by the major Internet carriers has been expanding at 75% to125% per year, driven by the explosion of broadband Internet users and growing use of bandwidth-hungry applications such as HDV. As a result, public and private networks are experiencing unprecedented end-user demand for bandwidth, resulting in a need to cost-effectively scale the capacity of networks.

This report addresses technological and marketing aspects of broadband Ethernet communications. The report reflects proliferation of Ethernet on various networking levels: from access to long-haul, with rapid deployments of the ultra-high speed communication infrastructure.

At the access networks level, the report shows significant advances in the standardization of GE-PON and 10GE-PON technologies. The IEEE standards have been published and the industry actively supports these developments. The report provides technological and marketing analysis of Ethernet-based PONs.

In metro and long-haul applications the IEEE supported standardization of 40GE and 100GE technologies. The report follows this process; and concentrates on already approved recent standards. The marketing and technological analysis of these ultra-high speed Ethernet applications and the industry is provided.

Altogether, the report objective was to show that:

• Broadband Ethernet is winning leading positions in packet-based communications;
• Broadband Ethernet penetrated all networking layers - from access to long-haul;
• The broadband Ethernet industry is supported by the standardization process conducted by the leading standardization organizations;
• 10GE-PON has been developed on the already established GE-PON base;
• Both GE-PON and 10GE-PON markets are growing;
• 40GE and 100GE standardization was the industry response on rapidly growing users' requirements for ultra-high speed communications;
• Both technologies have been already commercialized, with the 40GE established market (though still immature). The 100GE market also shows all signs of healthy growth and promises to reach sizable amount already in 2012-2013.
• Several service providers are offering services based on E-PONs; major service providers are also offering 40GE/100GE-based services.

This report is important to a wide population of researches, technical and sales staff involved in the developing of ultra-high speed transmission technologies and markets. It is recommended for both users and vendors that are working in the related areas.

Other categories of groups of interest may include R&D, sales and management.

Considerable research was done using the Internet. Information from various Web sites was studied and analyzed. Evaluation of publicly available marketing and technical publications was conducted. Telephone conversations and interviews were held with industry analysts, technical experts and executives. In addition to these interviews and primary research, secondary sources were used to develop a more complete mosaic of the market landscape, including industry and trade publications, conferences and seminars.

The overriding objective throughout the work has been to provide valid and relevant information. This has led to a continual review and update of the information content.

1.0. Introduction

• 1.1. General
• 1.2. Goal
• 1.3. Research Methodology
• 1.4. Target Audience

2.0. Long-haul and Metro: Ultra-high Speed Technologies and Standardization Process

• 2.1. Drivers
• 2.2. Organizations
  • 2.2.1. IEEE
    • 2.2.1.1. 802.3ba Scope and Time Schedule
    • 2.2.1.2. Objectives
    • 2.2.1.3. Details
    • 2.2.1.4. Interfaces
    • 2.2.1.5. Sublayers - Architecture
    • 2.2.1.6. IEEE 802.3bg
    • 2.2.1.7. IEEE 802.3bj
  • 2.2.2. ITU-T
    • 2.2.2.1. Cooperation
  • 2.2.3. OIF
  • 2.2.4. Additions
  • 2.2.5. Interest Group
  • 2.2.6. X40
  • 2.2.7. SSR-40
  • 2.2.8. 10x10 MSA
• 2.3. Current Status of Technologies
  • 2.3.1. 40 Gb/s Transmission
    • 2.3.1.1. Modulation: Preliminary
    • 2.3.1.2. 40 Gb/s Transmission Specifics
  • 2.3.2. 100 Gb/s Transmission
    • 2.3.2.1. Details
    • 2.3.2.2. DP QPSK
    • 2.3.2.3. Coherent Receiver
    • 2.3.2.4. 100 Gb/s Transmission Specifics
• 2.4. Benefits of Standardization and Advanced Technologies

3.0. Industry (40 Gb/s and 100 Gb/s Ethernet)

• Alcatel-Lucent (Network Elements)
• Altera (ICs)
• Adva (Platform)
• Applied Micro (ICs)
• Avago (Modules)
• Brocade (100 Gb/s NE)
• Broadcom (ICs)
• Centellax (Modules)
• Cisco (NEs)
• Ciena (Switching and WDM Platforms)
• ClariPhy (Chipsets)
• Covega - Thorlabs Quantum Electronics (Modulators)
• CyOptics (Optical Chips)
• ECI (Platforms)
• Ekinops (DWDM)
• Ericsson (WDM)
• Extreme Networks (Ethernet Switches)
• Huawei (DWDM)
• Finisar (Modules)
• Fujikura (Modules)
• Fujitsu (ROADM)
• Inphi (ICs)
• Infinera (NEs)
• JDSU (Modules and ICs)
• Juniper (Router)
• GigOptix (ICs)
• Gtran (ICs)
• Ixia (Modules)
• MultiPHY (ICs)
• MRV (WDM)
• NEC (DWDM)
• NeoPhotonics (Modules)
• NetLogic (Modules)
• Nokia Siemens Networks (DWDM)
• Oclaro (ICs)
• Oki Semiconductor (ICs)
• OpVista (NEs) - Vello Systems
• Opnext (Platform)
• Picometrix (Optical Receivers)
• Reflex Photonics (Modules)
• Sarance Technologies (ICs) - Acquired by Xilinx in 2011
• Sembarc (Modules)
• Semtech (ICs)
• SEDU (Modules)
• Sorrento Networks (DWDM)
• Triquint (ICs)
• Tellabs (Platform)
• U2t Photonics (ICs)
• Voltaire (Switches)-Acquired by Mellanox
• Xilinx (ICs)
• Xtera (WDM)

4.0. Service Providers: 40GE and 100GE Services

• AT&T
• Global Crossing
• Level 3
• NTT
• Sprint
• Qwest (CenturyLink)
• SurfNet
• Telefonica
• TeliaSonera
• Verizon
• XO

5.0. Market: 40GE and 100GE

• 5.1. Market Characteristics
• 5.2. Market Forecast
  • 5.2.1. Model Assumptions
  • 5.2.2. Analysis

6.0. Road to Ethernet-based PON

• 6.1. Reasons
• 6.2. Format

7.0. GE-PON Standard

• 7.1. General
• 7.2. Formats of Transmission
  • 7.2.1. Downstream and Upstream Separation
  • 7.2.2. Frequencies
  • 7.2.3. Topology
  • 7.2.4. Downstream Transmission
  • 7.2.5. Upstream Transmission
  • 7.2.6. Framing
• 7.3. Rates
  • 7.3.1. Point-to-Point (P2P) Transmission
  • 7.3.2. Point-to-Multipoint (P2MP) Transmission
  • 7.3.3. Physical Layer
• 7.4. Multi-Point Control Protocol (MPCP)
  • 7.4.1. General
  • 7.4.2. Modes
    • 7.4.2.1. Auto-Discovery
    • 7.4.2.2. Bandwidth Assignment Mode
• 7.5. Topology Emulation Sub-layer
• 7.6. OAM
• 7.7. Forward Error Correction (FEC)
• 7.8. Security
  • 7.8.1. General
  • 7.8.2. Solution
• 7.9. Quality of Service (QoS) and GE-PON
• 7.10. GE-PON vs. FSAN Technologies
• 7.10.1. GE-PON Challenges
• 7.10.2. Parameters
• 7.10.3. Formats
• 7.10.4. Summary
• 7.10.5. Comparison

8.0. GE-PON Market

• 8.1. PON Commercialized
• 8.2. GE-PON Market Estimate
  • 8.2.1. Vendors Revenue
  • 8.2.2. Providers Revenue

9.0. GE-PON Vendors

• Ad-Net
• ADK
• Broadcom
• Corecess
• Enablence
• Marvell
• Mitsubishi Electric
• NEC
• OBN
• Occam - Acquired by Calix
• OFN
• PBN
• PMC
• Source Photonics
• Sun Telecom
• Sumitomo Electric Networks
• Tainet
• UTStarcom
• Vitesse
• Wuhan Xunten
• ZTE

10.0. 10GE- PON

• 10.1. Goal
• 10.2. IEEE - Standardization
  • 10.2.1. Status
  • 10.2.2. Schedule
  • 10.2.3. Standard's Scope and Objectives
• 10.3. 10GE-PON Technology
  • 10.3.1. Inheritance
  • 10.3.2. List
  • 10.3.3. ONU Types
  • 10.3.4. Major Improvements
    • 10.3.4.1. Improved FEC
    • 10.3.4.2. Interfaces and Power Budget
    • 10.3.4.3. Signal Formats and MAC Protocol
      • 10.3.4.3.1. Transmission
      • 10.3.4.3.2. Spectrum Allocation
      • 10.3.4.3.3. Dynamic Bandwidth Allocation

11.0. IEEE vs. ITU

12.0. 10GE-PON Market

• 12.1. General
• 12.2. Drivers and Target Applications
  • 12.2.1. Major Applications
  • 12.2.2. Regional Differences
• 12.3. Market Estimate

13.0. 10GE-PON Vendors

• Alloptic (Was acquired by CTDI in 2010)
• Broadcom
• Cortina
• HISense
• Hitachi
• Gennum
• GigaLight
• K-Micro
• Ligent Photonics
• Mitsubishi Electric
• Neophotonics
• PMC-Sierra
• Qualcomm-Atheros
• Source Photonics
• Vitesse
• ZTE

14.0. Conclusions

• Figure 1: OTN Frame Structure
• Figure 2: 40 Gb/s Network Scenario
• Figure 3: Illustration
• Figure 4: Additional Challenges
• Figure 5: G.709 Network Scenario
• Figure 6: 100 Gb/s Transmission Standardization
• Figure 7: Major Optical Networking Segments (2011-2012)
• Figure 8: Projections: Ports Sales
• Figure 9: Estimate - Global Sales of 40 Gb/s Equipment
• Figure 10: Estimate - Global Sales of 100 Gb/s Equipment
• Figure 11: PM: Service Providers Revenue - 40 Gb/s Services - Global ($B)
• Figure 12: PM: Service Providers Revenue - 100 Gb/s Services - Global ($M)
• Figure 13: Ethernet Channel Simplified
• Figure 14: Ethernet Frame - Basic Structure
• Figure 15: GE-PON Channel
• Figure 16: Illustration - Downstream Transmission
• Figure 17: Illustration - Upstream Transmission
• Figure 18: Illustration - Downstream Frame
• Figure 19: Upstream Frame
• Figure 20: GE-PON OAM Process Standardization
• Figure 21: GE-PON Functionality Layers
• Figure 22: Penetration Dependence
• Figure 23: Asia Pacific: Subscribers Base for GE-PON (Mil.)
• Figure 24: TAM Asia Pacific: GE-PON Equipment Sales ($B)
• Figure 25: Estimate: GE-PON Providers Revenue (Asia Pacific; $M)
• Figure 26: GE-PON - 10GE-PON Scenario
• Figure 27: 10GE-PON Protocol Stack
• Figure 28: 10GE-PON Spectrum Allocation
• Figure 29: U.S. Providers
• Figure 30: TAM: Asia Pacific 10GE-PON Equipment sales ($B)

• Table 1: IEEE 802.3ba Copper Interfaces
• Table 2: IEEE802.3ba Optical Interfaces
• Table 3: 100 Gb/s - ITU and IEEE
• Table 4: 100 Gb/s Design Requirements
• Table 5: OTU Formats
• Table 6: 40 Gb/s Equipment Distribution (initial market)
• Table 7: EFM Physical Layer
• Table 8: Major PON Providers: Illustration
• Table 9: PON Service Scenarios
• Table 10: GE-PON Market Statistics (Asia Pacific)
• Table 11: GE-PON Equipment Market Components Distribution (2010)
• Table 12: IEEE 802.3av WG Schedule
• Table 13: PRX30 Downstream Specification
• Table 14: Interfaces

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