Cover Image


Innovations in Silicon Photonics

出版商 Frost & Sullivan 商品編碼 526035
出版日期 內容資訊 英文 76 Pages
商品交期: 最快1-2個工作天內
Back to Top
矽光子學的技術創新 Innovations in Silicon Photonics
出版日期: 2017年06月29日 內容資訊: 英文 76 Pages


第1章 摘要整理

第2章 矽光子學:現狀回顧

  • 什麼是矽光子學?
  • 探測器、調變器、雷射:基本構成要素
  • 波導、耦合器、開關:基本構成要素

第3章 技術環境

  • 產品開發、材料進歩、整合技術:技術創新焦點區
  • 世界的技術創新生態系統
  • 資料中心技術促進矽光子學、但受到昂貴資本投資的限制
  • 長期成長促進因素、阻礙因素
  • 光電子的的整合加速引進
  • 資本、設計面課題:阻礙普及
  • 現在市場面、技術面需求形成技術創新動向
  • 都市化、連結性:高影響力的主要趨勢

第4章 技術創新指標:專利、資金、R&D

  • 北美、亞太:研究活絡的地區
  • 研究主要焦點的產品開發
  • 量産:低成本:資金供給倡議的焦點

第5章 主要創新者、技術創新檔案

  • 高速光探測器:Finisar Corporation
  • 乙太網開關:Rockley Photonics
  • 單芯片收發器:Luxtera Inc
  • 收發模組:Reflex Photonics
  • 光收發器芯片:Sicoya
  • 光纖轉換器:Teem Photonics

第6章 産業智慧

  • 五力分析
  • 産業動向分析:重點
  • 技術開發與低成本量産:産業主要焦點
  • 矽光子學商品化的商業模式

第7章 引進環境

  • 資訊中心、通訊市場需求:促進引進
  • 短期對CE產品、軍事、航空宇宙有巨大影響

第8章 主要技術創新影響分析

  • 多種變數影響技術創新評價
  • 光電產品開發、光&電子整合技術的高影響力

第9章 技術藍圖預測

  • 從數據傳送到資料計算的焦點技術開發

第10章 策略考察

  • 技術創新生態系統評價
  • 成長機會
  • 策略計畫主要課題

第11章 主要專利

第12章 主要聯絡方式


Product Code: D7BB

Datacenters and Telecommunication Applications Drive Opportunities for Advanced Photonic Systems

The silicon photonics (SiP) is an emerging industry with a high level of collaboration between key stakeholders. SiP technology integrates complementary metal-oxide semiconductor (CMOS), three-dimensional (3D) integration, and fiber optic communication technologies. The objective of the SiP technology is to leverage CMOS manufacturing capabilities to fabricate and manufacture photonic devices. The key to enable this is by using silicon as the medium. The innovations in SiP technology have evolved to address the needs of the data transmission market. High bandwidth requirement and high data rate for transmission are two key technical requirements that has driven the advancements in silicon photonics.

Key factors that are decreasing the potential for silicon photonics are the inability of the manufacturing process to meet the cost performance demand. Constraints in development in this sector are mainly due to lack of standardized tools and specifications, testing schemes, integration, and packaging techniques.

The industry participants are seeking technology development either through investment in research and development (R&D) or through acquisition strategies. Vertical integration is expected to drive the manufacturing and automation activities of large tier participants in the SiP industry. Major participants are expected to wield dominance across the SiP value chain through acquisitions. Optoelectronic product development is expected to be the major area to witness high level of research activities.

Key questions answered in the report:

  • 1. What is the current trend in silicon photonics?
  • 2. What is the influence of mega trends?
  • 3. What are the factors driving adoption and development?
  • 4. What are the needs in the market that drive innovation?
  • 5. What are the key R&D focus areas?
  • 6. What is the patent and funding trend and how does it foster innovation?
  • 7. Who are the key innovators?
  • 8. Who are the key competitors and what is the intensity of competition?
  • 9. What are key attractive markets for silicon photonics and where should we invest?
  • 10. What is the impact of key innovations?
  • 11. What is the road ahead for technology development?
  • 12. What are the opportunities for growth?
  • 13. What are the key questions for strategy planning?

Table of Contents

1.0. Executive Summary

  • 1.1. Research Scope
  • 1.2. Research Methodology
    • 1.2.1. Research Methodology Explained
  • 1.3. Key Findings - Significance, R&D Focus Areas, and Applications
  • 1.4. Key Findings - Global Challenges and Scenario, Industry Initiatives

2.0. Silicon Photonics - Current Status Review

  • 2.1. What is Silicon Photonics?
  • 2.2. Detectors, Modulators, and Lasers as Basic Components of Silicon Photonics
  • 2.3. Waveguides, Couplers, and Switches as Basic Components of Silicon Photonics

3.0. Technology Landscape

  • 3.1. Product Development, Material Advancement, and Integration Technique as Key Innovation Focus Areas
  • 3.2. Global Innovation Ecosystem
  • 3.3. Data Center Technology Driving Silicon Photonics; High Capital Investment is a Key Restraint
  • 3.4. Technical Capability Expected to Be Key Driver and Fabrication Complexity to Be Key Restraint in the Long Term
  • 3.5. Convergence of Optical and Electronic Capabilities Accelerating Market Adoption
  • 3.6. High Capital and Design Challenges Restraining Penetration of Silicon Photonics Technology
  • 3.7. Current Market and Technological Needs Defining Innovation Trend
  • 3.8. Urbanization and Connectivity Key Megatrends with High Impact

4.0. Innovation Indicators - Patent and Funding Trends, R&D Focus Areas

  • 4.1. NA and APAC Emerging as Regions with High Research Activity in Silicon Photonics
  • 4.2. Product Development as Key Research Focus Area
  • 4.3. Mass Manufacturing and Low Cost Focus of Funding Initiatives

5.0. Key Innovators and Innovation Profiles

  • 5.1. High Speed Photodetectors - Finisar Corporation
  • 5.2. Ethernet Switch - Rockley Photonics
  • 5.3. Single Chip Transceivers- Luxtera Inc
  • 5.4. Transceiver Models - Reflex Photonics
  • 5.5. Optical Transceiver Chips - Sicoya
  • 5.6. Fiber Transposer - Teem Photonics

6.0. Industry Intelligence

  • 6.1. Porter's Analysis of Silicon Photonics Industry - Bargaining Power of Buyers, Threat of Substitute, and Bargaining Power of Suppliers Shaping Up the Industry
  • 6.2. Industry Trend Analysis - Key Takeaways
  • 6.3. Technology Development and Mass Manufacturing at Low Cost as Key Industry Focus
  • 6.4. Business Models Actively Seeking to Commercialize Silicon Photonics
    • 6.4.1. Fabless Business Model is Expected to Be Profitable

7.0. Application Landscape

  • 7.1. Needs of Data Center and Telecommunication Market Driving Application Landscape
  • 7.2. Silicon photonics Will have a Major Impact in Consumer Electronics, Military and Aerospace Sectors in the Near Term

8.0. Impact Assessment of Key Innovations

  • 8.1. Multivariable Innovation Impact Assessment Framework
    • 8.1.1. Multivariable Innovation Impact Assessment - Technological Advancements Highly Significant
    • 8.1.2. Nature of Innovation is a Key Component in Assessing Technological Impact of Innovation
    • 8.1.3. Social Acceptance of Innovation is a Key in Market Adoption of Silicon Photonic Technology
    • 8.1.4. Market Potential and Value Add of the Technology are Major Contributors in Assessing Economical Impact
    • 8.1.5. Legislative Policies are Assessed to Contribute Significantly toward Political Impact of Technology
  • 8.2. Optoelectronic Product Development and Photonic-Electronics Integration Technology Computed to Have High Impact
    • 8.2.1. Product Development has High Impact in All Categories
    • 8.2.2. Competency of Innovation Ecosystem is High for Advancements in Packaging Technology
    • 8.2.3. Value Addition for Technology Advancement in PIC Designing and Testing

9.0. Technology Roadmap, Forecast to 2025

  • 9.1. Technology Development Focus Transitioning from Data Transmission to Data Computation

10.0. Strategic Insights

  • 10.1. Innovation Ecosystem Assessment Silicon Photonics
  • 10.2. Growth Opportunities for Silicon Photonics
  • 10.3. Key Questions for Strategy Planning

11.0. Key Patents

  • 11.1. Monolithically Integrated Components On Chip Will Enable Mass Production of Photonic Integrated Circuits
  • 11.2. Photonic Switching Architectures to be Widely Used for Optical Networking

12.0. Key Industry Contacts

  • 12.1. Industry Contacts
  • 12.1. Industry Contacts (continued)
  • Legal Disclaimer

13.0. The Frost & Sullivan Story

  • 13.1. The Frost & Sullivan Story
  • 13.2. Value Proposition: Future of Your Company & Career
  • 13.3. Global Perspective
  • 13.4. Industry Convergence
  • 13.5. 360° Research Perspective
  • 13.6. Implementation Excellence
  • 13.7. Our Blue Ocean Strategy
Back to Top