+353-1-416-8900REST OF WORLD
+44-20-3973-8888REST OF WORLD
1-917-300-0470EAST COAST U.S
1-800-526-8630U.S. (TOLL FREE)

Global Semiconductor Industry Policies and Supply Chain Ecosystems

  • PDF Icon

    Report

  • 20 Pages
  • October 2024
  • Region: Global
  • Market Intelligence & Consulting Institute (MIC)
  • ID: 6020550
With global supply chain disruptions and rising geopolitical tensions reshaping markets, nations are aggressively rolling out incentive policies to develop local semiconductor industries. Their goals: achieve greater self-sufficiency, secure strategic resources, and boost global competitiveness. Seizing this moment, leading Taiwanese wafer foundries - such as TSMC, UMC, Powerchip Semiconductor Manufacturing Corporation (PSMC), and Vanguard International Semiconductor (VIS) - are becoming key players in these national initiatives, strategically expanding their presence worldwide.

This report offers a deep dive into preferential semiconductor policies across major regions, including the United States, European Union, China, Japan, Korea, Singapore, and India, along with a detailed breakdown of their supply chain ecosystems. It also provides a framework for evaluating how these countries assess manufacturing environments across six critical dimensions, helping industry leaders make informed decisions when planning overseas semiconductor investments.

Table of Contents

1. Development of the Wafer Foundry Industry
1.1 Taiwan Accounts for 80% of the Top 10 Global Pure-Play Foundries in 2023
1.2 Divergence in Capacity Utilization Between 12- and 8-inch Wafer Fabs
2. Global Semiconductor Industry Policies
2.1 US CHIPS Act Boosts Domestic Semiconductor Production
2.2 China Fosters Semiconductor Growth through Domestic Demand
2.3 Japan Partners with US and Taiwan to Revitalize Its Semiconductor Industry
2.4 EU Provides Subsidies to Strengthen Local Manufacturing
3. Impact of Geopolitics on Taiwan's Wafer Foundries
3.1 Short-term Gains for Taiwanese Firms Amid US-China Tensions
3.2 Local Market Demand Worldwide Drives Taiwan's Overseas Expansion
4. Taiwanese Foundries' Site Selection Assessment for Overseas Expansion
4.1 Geopolitical and Energy Concerns Fuel Taiwan's Overseas Expansion
4.2 Balancing Construction Costs with Political and Economic Considerations
4.2.1 Local Customer Support
4.2.2 Infrastructure Adequacy
4.2.3 Supply Chain Completeness
4.2.4 Local Government Policy Support
4.2.5 Talent Supply
4.2.6 Cost
4.3 The US, Japan, and the EU as Top Choices for Overseas Expansion
5. The Analyst's PerspectiveAppendixList of Companies
List of Tables
Table 1: Top 10 Global Pure-Play Foundries, 2023
Table 2: Evaluation Criteria for Overseas Expansion Plans by Foundries
Table 3: Assessment of Local Customer Demand in Evaluated Countries
Table 4: Infrastructure Assessment of Evaluated Countries
Table 5: Evaluation of Semiconductor Policies by Country
Table 6: Facility Operating Cost Comparison by Country
Table 7: Comprehensive Evaluation of Overseas Manufacturing Sites
List of Figures
Figure 1: Major Taiwanese Wafer Foundries' Factory Distribution
Figure 2: Taiwanese Wafer Foundries' Capacity Utilization, 1Q 2022 - 1Q 2024
Figure 3: PSMC Revenue by Region, 2021 - 2023
Figure 4: VIS Revenue by Region, 1Q 2021 - 1Q 2024
Figure 5: SMIC North American Revenue Share, 1Q 2021 - 1Q 2024
Figure 6: India's Semiconductor Supply Chain Ecosystem
Figure 7: Singapore's Semiconductor Supply Chain Ecosystem
Figure 8: Japan's Semiconductor Supply Chain Ecosystem
Figure 9: US Semiconductor Supply Chain Ecosystem
Figure 10: EU Semiconductor Supply Chain Ecosystem

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

  • ABB
  • AEMtec
  • Air Liquide
  • AMD
  • Amko
  • AMS AG
  • Ansys
  • Apple
  • Applied Materials
  • Ardentec
  • ASE Technology
  • ASML
  • AWS
  • BASF
  • BMW
  • Bosch
  • Broadcom
  • Cadence
  • Continental Device India
  • DB Hitek
  • Denso
  • Dow Inc
  • DuPont
  • elnfochips
  • Entegris
  • ESMC
  • Ford
  • FormFactor Inc
  • Foxconn
  • Fujifilm Electronics
  • General Motors
  • GlobalFoundries
  • GlobalWafers
  • Google
  • HCL
  • Hitachi
  • Hua Hong Semiconductor
  • IBM
  • Imagination Technologies
  • Infineon
  • Intel
  • Interchip
  • Intex Technologies
  • IQE
  • iROC Technologies
  • JASM
  • JCET
  • JEOL
  • JSR
  • Keysight
  • Kioxia
  • KLA
  • Komatsu
  • LAM Research
  • Mahindra & Mahindra
  • Masamb Electronics Systems
  • Mazda
  • MediaTek
  • Mega Chips
  • Mercedes-Benz
  • Merck
  • Micromax Informatics
  • Micron
  • Microsoft
  • Mitsubishi
  • MosChip
  • MunEDA
  • NEC
  • Nexchip
  • Nexchip Semiconductor
  • Nissan
  • Nordic Semiconductor
  • NSTC
  • NuFlare Technology
  • Nuvoton Technology
  • Nvidia
  • NXP
  • ON Semiconductor
  • PacTech
  • PSMC
  • Qualcomm
  • Rapidus
  • Renesas
  • Samsung
  • Schneider Electric SE
  • Screen
  • Shin-Etsu Chemical
  • Siemens
  • Silicon Labs
  • Siltronic AG
  • Skyworks Solutions
  • SMIC
  • Soitec
  • Solvay SA
  • Sony
  • SPEL Semiconductor
  • SSMC
  • ST Engineering
  • STMicro
  • Sumco
  • Synopsys
  • Tata Motors
  • TCS
  • Tesla
  • TI
  • Tokyo Electron
  • Tokyo Ohka Kogyo
  • Toshiba
  • Tower Semiconductor
  • Toyota
  • TPSCo
  • TSMC
  • UMC
  • Venture Corporation
  • VIS
  • Volkswagen
  • VSMC
  • Win Semiconductors
  • Wipro
  • Yamazaki Mazak

Methodology

Primary research with a holistic, cross-domain approach

The exhaustive primary research methods are central to the value that the analyst delivers. A combination of questionnaires and on-site visits to the major manufacturers provides a first view of the latest data and trends. Information is subsequently validated by interviews with the manufacturers' suppliers and customers, covering a holistic industry value chain. This process is backed up by a cross-domain team-based approach, creating an interlaced network across numerous interrelated components and system-level devices to ensure statistical integrity and provide in-depth insight.

Complementing primary research is a running database and secondary research of industry and market information. Dedicated research into the macro-environmental trends shaping the ICT industry also allows the analyst to forecast future development trends and generate foresight perspectives. With more than 20 years of experience and endeavors in research, the methods and methodologies include:

Method

  • Component supplier interviews
  • System supplier interviews
  • User interviews
  • Channel interviews
  • IPO interviews
  • Focus groups
  • Consumer surveys
  • Production databases
  • Financial data
  • Custom databases

Methodology

  • Technology forecasting and assessment
  • Product assessment and selection
  • Product life cycles
  • Added value analysis
  • Market trends
  • Scenario analysis
  • Competitor analysis

Loading
LOADING...