Summary

Persistence Market Research has recently released a comprehensive report on the worldwide market for boundary scan hardware. The report offers a thorough assessment of crucial market dynamics, including drivers, trends, opportunities, and challenges, providing detailed insights into the market structure. This research publication presents exclusive data and statistics outlining the anticipated growth trajectory of the global boundary scan hardware market from 2025 to 2032.

Key Insights:

• Boundary Scan Hardware Market Size (2025E): USD 2,021.0 Million
• Projected Market Value (2032F): USD 3,396.8 Million
• Global Market Growth Rate (CAGR 2025 to 2032): 7.7%

Boundary Scan Hardware Market – Report Scope:

Boundary scan hardware plays a critical role in testing and debugging printed circuit boards (PCBs) and integrated circuits (ICs) using the IEEE 1149.1 standard, commonly known as JTAG (Joint Test Action Group). These systems enable non-intrusive testing and programming of devices at the board level, ensuring functionality, identifying manufacturing defects, and reducing development time. The boundary scan hardware market caters to electronics manufacturers, semiconductor companies, and design engineers across industries such as telecommunications, aerospace, automotive, industrial electronics, and consumer electronics. With the increasing complexity of electronic devices, the demand for efficient testing methods like boundary scan continues to rise, driving market expansion.

Market Growth Drivers:

The global boundary scan hardware market is driven by the rising complexity and miniaturization of PCBs, which make traditional testing methods less effective. Boundary scan enables access to internal nodes of circuits that are otherwise unreachable using standard probing techniques. The growing demand for automated testing in high-density electronics, especially in automotive electronics and telecommunications infrastructure, is significantly boosting market demand. Furthermore, the rise in adoption of system-on-chip (SoC) designs and field-programmable gate arrays (FPGAs), which often come equipped with boundary scan capability, is promoting the widespread integration of boundary scan hardware in manufacturing and design validation processes.

Market Restraints:

Despite its advantages, the boundary scan hardware market faces challenges related to the high initial investment cost of test systems and the complexity of integrating boundary scan into existing production workflows. For small and medium-sized enterprises, the cost of acquiring advanced boundary scan hardware and training personnel can be a deterrent. Additionally, limitations in testing analog components and power systems using boundary scan require complementary testing technologies, which may increase operational complexity. Moreover, lack of standardization in implementation and interoperability issues across different hardware platforms can hinder broader adoption in certain regions or industries.

Market Opportunities:

The boundary scan hardware market presents significant opportunities through advancements in automation, AI-powered test pattern generation, and cloud-based diagnostics. As electronics manufacturers increasingly prioritize time-to-market and fault coverage efficiency, the integration of boundary scan with automated test equipment (ATE) and in-circuit testers opens new avenues for growth. Additionally, the growing popularity of Industry 4.0 and smart manufacturing systems creates a favorable environment for the adoption of advanced testing solutions. Emerging markets in Asia Pacific and Latin America, where electronics manufacturing is rapidly expanding, provide untapped potential for boundary scan hardware vendors to scale operations and strengthen their global footprint.

Key Questions Answered in the Report:

• What are the primary factors driving the growth of the boundary scan hardware market globally?
• Which application areas and industries are contributing the most to boundary scan hardware adoption?
• How are technological advancements reshaping the competitive landscape of the boundary scan hardware market?
• Who are the key players contributing to the boundary scan hardware market, and what strategies are they employing to maintain market relevance?
• What are the emerging trends and future prospects in the global boundary scan hardware market?

Competitive Intelligence and Business Strategy:

Leading players in the global boundary scan hardware market, including XJTAG, Goepel Electronic GmbH, Keysight Technologies, and ASSET InterTech, focus on product innovation, strategic collaborations, and expansion into emerging economies to gain a competitive edge. These companies are investing in the development of compact, high-speed, and multi-functional boundary scan systems that integrate seamlessly with existing design and production environments. Partnerships with OEMs and EMS providers help enhance product adoption and create customized solutions tailored to specific industry needs. Additionally, increased focus on software-hardware integration and remote diagnostics is expected to strengthen market positioning in the coming years.

Key Companies Profiled:

• JTAG Technologies
• CHECKSUM
• GOEPEL electronic
• ASSET InterTech
• Acculogic Inc
• Flynn Systems Corporation
• XJTAG Limited
• CORELIS (EWA Technologies)
• Keysight Technologies
• Teradyne, Inc

Key Segments of Boundary Scan Hardware Market Industry Research

By Component:

• Controllers
• TAP Pods
• I/O Modules
• Accessories
• Other Instruments

By Industry:

• Medical
• IT & Telecom
• Consumer Electronics
• Automotive
• Aerospace & Defence
• Others

By Region:

• North America
• Latin America
• Europe
• East Asia
• South Asia Pacific
• Middle East and Africa

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Table of Contents

1. Executive Summary
1.1. Global Market Outlook
1.2. Demand Side Trends
1.3. Supply Side Trends
1.4. Analysis and Recommendations
2. Market Overview
2.1. Market Coverage / Taxonomy
2.2. Market Definition / Scope / Limitations
3. Key Market Trends
3.1. Key Trends Impacting the Market
3.2. Product Innovation / Development Trends
4. Pricing Analysis
4.1. Pricing Analysis, By Boundary Scan Hardware
4.2. Average Pricing Analysis Benchmark
5. Global Boundary Scan Hardware Market Demand (in Value in US$ Mn) Analysis 2019-2032
5.1. Historical Market Value (US$ Mn) Analysis, 2019-2024
5.2. Current and Future Market Value (US$ Mn) Projections, 2025-2032
5.2.1. Y-o-Y Growth Trend Analysis
5.2.2. Absolute $ Opportunity Analysis
6. Market Background
6.1. Macro-Economic Factors
6.2. Forecast Factors - Relevance & Impact
6.3. Value Chain
6.4. COVID-19 Crisis – Impact Assessment
6.4.1. Current Statistics
6.4.2. Short-Mid-Long Term Outlook
6.4.3. Likely Rebound
6.5. Market Dynamics
6.5.1. Drivers
6.5.2. Restraints
6.5.3. Opportunities
7. Global Boundary Scan Hardware Market Analysis 2019-2032, by Component
7.1. Introduction / Key Findings
7.2. Historical Market Size (US$ Mn) Analysis By Component, 2019-2024
7.3. Current and Future Market Size (US$ Mn) Analysis and Forecast By Component, 2025-2032
7.3.1. Controllers
7.3.2. TAP Pods
7.3.3. I/O Modules
7.3.4. Accessories
7.3.5. Other Instruments
7.4. Market Attractiveness Analysis By Component
8. Global Boundary Scan Hardware Market Analysis 2019-2032, by Application
8.1. Introduction / Key Findings
8.2. Historical Market Size (US$ Mn) Analysis By Application, 2019-2024
8.3. Current and Future Market Size (US$ Mn) Analysis and Forecast By Application, 2025-2032
8.3.1. Medical
8.3.2. IT & Telecom
8.3.3. Consumer Electronics
8.3.4. Automotive
8.3.5. Aerospace & Defense
8.3.6. Others
8.4. Market Attractiveness Analysis By Application
9. Global Boundary Scan Hardware Market Analysis 2019-2032, by Region
9.1. Introduction / Key Findings
9.2. Historical Market Size (US$ Mn) Analysis By Region, 2019-2024
9.3. Current and Future Market Size (US$ Mn) Analysis and Forecast By Region, 2025-2032
9.3.1. North America
9.3.2. Latin America
9.3.3. Europe
9.3.4. East Asia
9.3.5. South Asia Pacific
9.3.6. Middle East and Africa
9.4. Market Attractiveness Analysis By Region
10. North America Boundary Scan Hardware Market Analysis 2019-2032
10.1. Introduction
10.2. Historical Market Size (US$ Mn) Trend Analysis By Market Taxonomy, 2019-2024
10.3. Current and Future Market Size (US$ Mn) Forecast By Market Taxonomy, 2025-2032
10.3.1. By Component
10.3.2. By Application
10.3.3. By Country
10.3.3.1. U.S.
10.3.3.2. Canada
10.4. Market Attractiveness Analysis
10.4.1. By Component
10.4.2. By Application
10.4.3. By Country
11. Latin America Boundary Scan Hardware Market Analysis 2019-2032
11.1. Introduction
11.2. Historical Market Size (US$ Mn) Trend Analysis By Market Taxonomy, 2019-2024
11.3. Current and Future Market Size (US$ Mn) Forecast By Market Taxonomy, 2025-2032
11.3.1. By Component
11.3.2. By Application
11.3.3. By Country
11.3.3.1. Brazil
11.3.3.2. Mexico
11.3.3.3. Rest of Latin America
11.4. Market Attractiveness Analysis
11.4.1. By Component
11.4.2. By Application
11.4.3. By Country
12. Europe Boundary Scan Hardware Market Analysis 2019-2032
12.1. Introduction
12.2. Historical Market Size (US$ Mn) Trend Analysis By Market Taxonomy, 2019-2024
12.3. Current and Future Market Size (US$ Mn) Forecast By Market Taxonomy, 2025-2032
12.3.1. By Component
12.3.2. By Application
12.3.3. By Country
12.3.3.1. Germany
12.3.3.2. Italy
12.3.3.3. France
12.3.3.4. U.K.
12.3.3.5. Spain
12.3.3.6. BENELUX
12.3.3.7. Russia
12.3.3.8. Rest of Europe
12.4. Market Attractiveness Analysis
12.4.1. By Component
12.4.2. By Application
12.4.3. By Country
13. South Asia & Pacific Boundary Scan Hardware Market Analysis 2019-2032
13.1. Introduction
13.2. Historical Market Size (US$ Mn) Trend Analysis By Market Taxonomy, 2019-2024
13.3. Current and Future Market Size (US$ Mn) Forecast By Market Taxonomy, 2025-2032
13.3.1. By Component
13.3.2. By Application
13.3.3. By Country
13.3.3.1. India
13.3.3.2. Indonesia
13.3.3.3. Malaysia
13.3.3.4. Singapore
13.3.3.5. Australia & New Zealand
13.3.3.6. Rest of South Asia and Pacific
13.4. Market Attractiveness Analysis
13.4.1. By Component
13.4.2. By Application
13.4.3. By Country
14. East Asia Boundary Scan Hardware Market Analysis 2019-2032
14.1. Introduction
14.2. Historical Market Size (US$ Mn) Trend Analysis By Market Taxonomy, 2019-2024
14.3. Current and Future Market Size (US$ Mn) Forecast By Market Taxonomy, 2025-2032
14.3.1. By Component
14.3.2. By Application
14.3.3. By Country
14.3.3.1. China
14.3.3.2. Japan
14.3.3.3. South Korea
14.4. Market Attractiveness Analysis
14.4.1. By Component
14.4.2. By Application
14.4.3. By Country
15. Middle East and Africa Boundary Scan Hardware Market Analysis 2019-2032
15.1. Introduction
15.2. Historical Market Size (US$ Mn) Trend Analysis By Market Taxonomy, 2019-2024
15.3. Current and Future Market Size (US$ Mn) Forecast By Market Taxonomy, 2025-2032
15.3.1. By Component
15.3.2. By Application
15.3.3. By Country
15.3.3.1. GCC Countries
15.3.3.2. Turkey
15.3.3.3. South Africa
15.3.3.4. Rest of Middle East and Africa
15.4. Market Attractiveness Analysis
15.4.1. By Component
15.4.2. By Application
15.4.3. By Country
16. Key Countries Analysis- Boundary Scan Hardware Market
16.1. U.S. Boundary Scan Hardware Market Analysis
16.1.1. By Component
16.1.2. By Application
16.2. Canada Boundary Scan Hardware Market Analysis
16.2.1. By Component
16.2.2. By Application
16.3. Mexico Boundary Scan Hardware Market Analysis
16.3.1. By Component
16.3.2. By Application
16.4. Brazil Boundary Scan Hardware Market Analysis
16.4.1. By Component
16.4.2. By Application
16.5. Germany Boundary Scan Hardware Market Analysis
16.5.1. By Component
16.5.2. By Application
16.6. Italy Boundary Scan Hardware Market Analysis
16.6.1. By Component
16.6.2. By Application
16.7. France Boundary Scan Hardware Market Analysis
16.7.1. By Component
16.7.2. By Application
16.8. U.K. Boundary Scan Hardware Market Analysis
16.8.1. By Component
16.8.2. By Application
16.9. Spain Boundary Scan Hardware Market Analysis
16.9.1. By Component
16.9.2. By Application
16.10. BENELUX Boundary Scan Hardware Market Analysis
16.10.1. By Component
16.10.2. By Application
16.11. Russia Boundary Scan Hardware Market Analysis
16.11.1. By Component
16.11.2. By Application
16.12. Rest of Europe Boundary Scan Hardware Market Analysis
16.12.1. By Component
16.12.2. By Application
16.13. China Boundary Scan Hardware Market Analysis
16.13.1. By Component
16.13.2. By Application
16.14. Japan Boundary Scan Hardware Market Analysis
16.14.1. By Component
16.14.2. By Application
16.15. South Korea Boundary Scan Hardware Market Analysis
16.15.1. By Component
16.15.2. By Application
16.16. India Boundary Scan Hardware Market Analysis
16.16.1. By Component
16.16.2. By Application
16.17. Malaysia Boundary Scan Hardware Market Analysis
16.17.1. By Component
16.17.2. By Application
16.18. Indonesia Boundary Scan Hardware Market Analysis
16.18.1. By Component
16.18.2. By Application
16.19. Singapore Boundary Scan Hardware Market Analysis
16.19.1. By Component
16.19.2. By Application
16.20. Australia and New Zealand Boundary Scan Hardware Market Analysis
16.20.1. By Component
16.20.2. By Application
16.21. GCC Countries Boundary Scan Hardware Market Analysis
16.21.1. By Component
16.21.2. By Application
16.22. Turkey Boundary Scan Hardware Market Analysis
16.22.1. By Component
16.22.2. By Application
16.23. South Africa Boundary Scan Hardware Market Analysis
16.23.1. By Component
16.23.2. By Application
16.24. Rest of Middle East and Africa Boundary Scan Hardware Market Analysis
16.24.1. By Component
16.24.2. By Application
17. Market Structure Analysis
17.1. Market Analysis by Tier of Companies
17.2. Market Share Analysis of Top Players
17.3. Market Presence Analysis
18. Competition Analysis
18.1. Competition Dashboard
18.2. Competition Benchmarking
18.3. Competition Deep Dive
18.3.1. JTAG Technologies
18.3.1.1. Business Overview
18.3.1.2. Solution Portfolio
18.3.1.3. Profitability by Market Segments (Business Segments/Region)
18.3.1.4. Key Strategy & Developments
18.3.2. CHECKSUM
18.3.2.1. Business Overview
18.3.2.2. Solution Portfolio
18.3.2.3. Profitability by Market Segments (Business Segments/Region)
18.3.2.4. Key Strategy & Developments
18.3.3. GOEPEL electronic
18.3.3.1. Business Overview
18.3.3.2. Solution Portfolio
18.3.3.3. Profitability by Market Segments (Business Segments/Region)
18.3.3.4. Key Strategy & Developments
18.3.4. ASSET InterTech
18.3.4.1. Business Overview
18.3.4.2. Solution Portfolio
18.3.4.3. Profitability by Market Segments (Business Segments/Region)
18.3.4.4. Key Strategy & Developments
18.3.5. Acculogic Inc
18.3.5.1. Business Overview
18.3.5.2. Solution Portfolio
18.3.5.3. Profitability by Market Segments (Business Segments/Region)
18.3.5.4. Key Strategy & Developments
18.3.6. Flynn Systems Corporation
18.3.6.1. Business Overview
18.3.6.2. Solution Portfolio
18.3.6.3. Profitability by Market Segments (Business Segments/Region)
18.3.6.4. Key Strategy & Developments
18.3.7. XJTAG Limited
18.3.7.1. Business Overview
18.3.7.2. Solution Portfolio
18.3.7.3. Profitability by Market Segments (Business Segments/Region)
18.3.7.4. Key Strategy & Developments
18.3.8. CORELIS (EWA Technologies)
18.3.8.1. Business Overview
18.3.8.2. Solution Portfolio
18.3.8.3. Profitability by Market Segments (Business Segments/Region)
18.3.8.4. Key Strategy & Developments
18.3.9. Keysight Technologies
18.3.9.1. Business Overview
18.3.9.2. Solution Portfolio
18.3.9.3. Profitability by Market Segments (Business Segments/Region)
18.3.9.4. Key Strategy & Developments
18.3.10. Teradyne, Inc
18.3.10.1. Business Overview
18.3.10.2. Solution Portfolio
18.3.10.3. Profitability by Market Segments (Business Segments/Region)
18.3.10.4. Key Strategy & Developments
19. Assumptions and Acronyms Used
20. Research Methodology