Opportunities for Power Architecture in Embedded Processing -2009 Edition

Table of Contents

Section 1 - Executive Overview

• Key Point Conclusions

Section 2 - Scope & Method

• 2.1 Scope
• 2.2 Research Method
• 2.3 Embedded Processing Service

Section 3 - Application Analysis

• 3.1 Automotive Under-the-hood Electronics
• 3.2 Automotive Entertainment Systems
• 3.3 Cellphones & Communicators
• 3.4 Customer Premises Equipment
• 3.5 Wired Communications Infrastructure
• 3.6 Wireless Communications Infrastructure
• 3.7 Compute Platforms
• 3.8 HDDs & Storage Systems
• 3.9 Office Equipment & Computer Peripherals
• 3.10 Wired Games Consoles
• 3.11 Handheld Games Consoles
• 3.12 Media Players/MP3 Players
• 3.13 Cameras & Camcorders
• 3.14 TVs & Set-top Boxes
• 3.15 DVD Recorders & Players
• 3.16 Other Consumer Electronics
• 3.17 Automation & Drives
• 3.18 Medical Electronics
• 3.19 Chips Cards & Payment Processing
• 3.20 Other Industrial Electronics

Section 4 - Opportunities for Power Architecture-based MCUs/eMPUs in Embedded Processing

Section 5 - Opportunities for Power Architecture-based ASICs/ASSPs in Embedded Processing

Section 6 - Opportunities for Power Architecture-based FPGAs in Embedded Processing

Appendix I - Comparison of 2007 & 2009 Revenue Forecasts

Appendix II - Power Architecture-based Embedded Processor Supplier Activity Summary

List of Tables (35 tables)

• Table 1.1 Opportunities for Power Architecture in Embedded Processing by Application - Revenue Summary
• Table 1.2 Opportunities for Power Architecture in Embedded Processing by Application - Unit Summary
• Table 1.3 Opportunities for Power Architecture in Embedded Processing - Product Summary
• Table 1.4 Worldwide Market Share Estimates for Suppliers of Power Architecture-based Embedded Processors in 2008
• Table 2.1 Definitions of Embedded Processing Product Categories
• Table 2.2 Definitions of Applications
• Table 3.1 Opportunities for Power Architecture-based Embedded Processors in Automotive Under-the-hood Electronics by Product
• Table 3.2 Opportunities for Power Architecture-based Embedded Processors in Automotive Entertainment Systems by Product
• Table 3.3 Opportunities for Power Architecture-based Embedded Processors in Cellphones & Communicators by Product
• Table 3.4 Opportunities for Power Architecture-based Embedded Processors in Customer Premises Equipment by Product
• Table 3.5 Opportunities for Power Architecture-based Embedded Processors in Wired Communications Infrastructure by Product
• Table 3.6 Opportunities for Power Architecture-based Embedded Processors in Wireless Communications Infrastructure by Product
• Table 3.7 Opportunities for Power Architecture-based Embedded Processors in Compute Platforms by Product
• Table 3.8 Opportunities for Power Architecture-based Embedded Processors in HDDs & Storage Systems by Product
• Table 3.9 Opportunities for Power Architecture-based Embedded Processors in Office Equipment & Computer Peripherals by Product
• Table 3.10 Opportunities for Power Architecture-based Embedded Processors in Wired Games Consoles by Product
• Table 3.11 Opportunities for Power Architecture-based Embedded Processors in Handheld Games Consoles by Product
• Table 3.12 Opportunities for Power Architecture-based Embedded Processors in Media Players/MP3 Players by Product
• Table 3.13 Opportunities for Power Architecture-based Embedded Processors in Cameras & Camcorders by Product
• Table 3.14 Opportunities for Power Architecture-based Embedded Processors in TVs & Set-top Boxes by Product
• Table 3.15 Opportunities for Power Architecture-based Embedded Processors in DVD Recorders & Players by Product
• Table 3.16 Opportunities for Power Architecture-based Embedded Processors in Other Consumer Electronics by Product
• Table 3.17 Opportunities for Power Architecture-based Embedded Processors in Industrial Automation & Drives by Product
• Table 3.18 Opportunities for Power Architecture-based Embedded Processors in Medical Electronics by Product
• Table 3.19 Opportunities for Power Architecture-based Embedded Processors in Chip Cards & Payment Processing by Product
• Table 3.20 Opportunities for Power Architecture-based Embedded Processors in Other Industrial Electronics by Product
• Table 4.1 Opportunities for Power Architecture-based MCUs/eMPUs in Embedded Processing by Application - Revenue Summary
• Table 4.2 Opportunities for Power Architecture-based MCUs/eMPUs in Embedded Processing by Application - Unit Summary
• Table 5.1 Opportunities for Power Architecture-based ASICs/ASSPs in Embedded Processing by Application - Revenue Summary
• Table 5.2 Opportunities for Power Architecture-based ASICs/ASSPs in Embedded Processing by Application - Unit Summary
• Table 6.1 Opportunities for Power Architecture-based FPGAs in Embedded Processing by Application - Revenue Summary
• Table 6.2 Opportunities for Power Architecture-based FPGAs in Embedded Processing by Application - Unit Summary
• Table AP.1 Opportunities for Power Architecture in Embedded Processing by Application - Revenue Summary (June 2007 Forecast)
• Table AP.2 Opportunities for Power Architecture in Embedded Processing - 2007 & 2009 Forecast Comparison
• Table AP.3 Power Architecture-based Embedded Processor Supplier Activity Summary

List of Figures (7 figures)

• Figure 1: Opportunities for Power Architecture in Embedded Processing - Revenue Summary by End-use Sector
• Figure 2: Opportunities for Power Architecture in Embedded Processing - Unit Summary by End-use Sector
• Figure 3: Opportunities for Power Architecture in Embedded Processing - Revenue Summary by Product Type
• Figure 4: Opportunities for Power Architecture in Embedded Processing - Unit Summary by Product Type
• Figure 5: Opportunities for Power Architecture-based MCUs/eMPUs in Embedded Processing - Revenue Summary by End-use Sector
• Figure 6: Opportunities for Power Architecture-based ASICs/ASSPs in Embedded Processing - Revenue Summary by End-use Sector
• Figure 7: Opportunities for Power Architecture-based FPGAs in Embedded Processing - Revenue Summary by End-use Sector