AMHS for Semiconductor Market Grows with Surge in Fab Automation and Smart Manufacturing

AMHS for Semiconductor Market Size and Forecast 2025 to 2034

The global AMHS for semiconductor market size accounted for USD 3.14 billion in 2024 and is predicted to increase from USD 3.36 billion in 2025 to approximately USD 6.20 billion by 2034, expanding at a CAGR of 7.04% from 2025 to 2034. The market growth is attributed to the rising need for high-throughput, contamination-free wafer handling solutions in increasingly complex and automated semiconductor fabrication environments.

AMHS for Semiconductor Market Key Takeaways

• In terms of revenue, the global AMHS for semiconductor market was valued at USD 3.14 billion in 2024.
• It is projected to reach USD 6.20 billion by 2034.
• The market is expected to grow at a CAGR of 7.04% from 2025 to 2034.
• Asia Pacific dominated the global AMHS for semiconductor market with the largest share of 50% in 2024.
• North America is expected to grow at a notable CAGR from 2025 to 2034.
• By component type, the robotic systems segment held the major market share of 45% in 2024.
• By component type, the AHMS segment is expected to grow at the highest CAGR between 2025 and 2034.
• By technology, the robotics-based AHMS segment dominated the market, holding a 55% share in 2024 and is expected to sustain the growth in the coming years.
• By end-use industry, the semiconductor fabrication segment captured the biggest market share of 60% in 2024.
• By end-use industry, the semiconductor assembly and packaging segment is expected to grow at a significant CAGR over the projected period.
• By system type, the wafer handling systems segment contributed the highest market share of 40% in 2024.
• By system type, the material transfer systems segment is expected to grow at a notable CAGR from 2025 to 2034.
• By deployment type, the on-site deployment segment generated the major market share of 70% in 2024.
• By deployment type, the cloud-based systems segment is expected to grow at a notable CAGR from 2025 to 2034.
• By application, the wafer processing segment accounted for the significant market share of 50% in 2024.
• By application, the chip packaging and final assembly segment is projected to grow at a significant CAGR between 2025 and 2034.

Impact of Artificial Intelligence on the AMHS for Semiconductor Market

Artificial intelligence (AI) is a game-changer in the AMHS for semiconductor market, enabling smarter, faster, and adaptable manufacturing environments. Major semiconductor manufacturing facilities now use AI-based AMHS, which aids in efficient wafer transportation and smartly alleviates congestion in their cleanroom networks. Furthermore, with the rise in complexity of chips and the pressure to use advanced nodes, AI assists in simplifying the flow of materials through the complex manufacturing steps with minimal assistance from the human workforce.

Asia Pacific AMHS for Semiconductor Market Size and Growth 2025 to 2034

The Asia Pacific AMHS for semiconductor market size is evaluated at USD 1.68 billion in 2025 and is projected to be worth around USD 3.13 billion by 2034, growing at a CAGR of 7.14% from 2025 to 2034.

What Made Asia Pacific the Dominant Region in the AMHS for Semiconductor Market in 2024?

Asia Pacific led the AMHS for semiconductor market, capturing the largest revenue share of about 50% in 2024, due to the concentration of manufacturing activities and significant fab investments in key locations such as Taiwan, South Korea, China, and Japan. This dominance, supported by strong foundries and IDMs, including TSMC, Samsung Electronics, SK Hynix, and SMIC, continued to implement the latest automation technology to maintain high wafer throughput and maximize yields amidst the increasing complexity of manufacturing lines. (Source: https://orcasia.org)

The MOTIE of Korea invested in the Smart Manufacturing Innovation Project 2024, providing investments in automation infrastructure and domestic fabs. Government funding through the Made in China 2025 program led to new AMHS installations at emerging fabs in Suzhou, Shanghai, and Wuhan in China. The 2024 Fab Outlook Report by SEMI indicated that over 55% of the total new front-end capacity additions worldwide were located in the Asia-Pacific region. This positions it as the global leader in automated material movement within semiconductor manufacturing facilities. Furthermore, the increasing adoption of AI-enabled robotics technology and 5G-equipped AMHS systems in Taiwanese fabs is expected to further boost the market in the coming years. (Source: https://www.semiconductors.org)

North America is expected to grow at the fastest rate in the market during the forecast period, driven by substantial investments made by government-led national semiconductor revitalization programs. In November 2024, GlobalFoundries and the U.S. Department of Commerce announced an award of up to $1.5 billion in direct funding to GF under the CHIPS and Science Act. This funding, following the preliminary memorandum of terms signed in February 2024, will support the expansion of GF’s chip manufacturing and technology development operations in the United States. The investment aims to strengthen domestic semiconductor supply chains and support critical end-markets such as automotive, smart mobile devices, IoT, data centers, and aerospace and defense.

Advanced logic, memory, and heterogeneous integration nodes are expected to be supported by North American fabs using high-throughput and AI-integrated AMHS systems. These initiatives highlight North America's strategic shift towards intelligent automation ecosystems, further advancing semiconductor automation in the region. (Source: https://gf.com)

Market Overview

The automated handling and manufacturing systems (AHMS) for the semiconductor industry refer to advanced robotic and automated solutions that aid in the efficient processing, assembly, and handling of semiconductor materials and components. These systems ensure high precision, reduce human intervention, and significantly improve the throughput of semiconductor fabrication and packaging processes.

The rising demand for advanced semiconductors created by AI, 5G, and high-performance computing applications is expected to speed up the automation of automated material handling systems (AMHS) in fabs internationally. Such systems are essential to ensuring time accuracy and decreased contamination risk, and high-mix and high-volume productions. As noted by the Semiconductor Industry Association (SIA), global chip sales rose by more than 19.1% in 2024, and this brought about a great challenge to prevailing production capacities. Furthermore, with the ever-increasing complexity and scale of fabs, spiking levels of interest in lights-out facilities and AI-based logistics suggest that such innovation stimuli are only likely to increase across advanced node production.
(Source: https://www.semiconductors.org)

AMHS for Semiconductor Market Growth Factors

• Rising Demand for Cleanroom Space Optimization: Increasing fab density is fuelling the need for compact, vertically integrated AMHS solutions to maximize cleanroom utilization.
• Boosting Demand for AI Chips and Edge Computing: The surge in advanced chip production for AI and IoT applications is driving demand for faster, more intelligent material handling.
• Fuelling Smart Reticle Handling Requirements: The rising sensitivity of next-gen lithography processes is boosting the adoption of specialized AMHS systems tailored for reticle transport.
• Growing Shift Toward Hybrid and Multi-Node Fabs: The complexity of operating mixed-technology lines is propelling the need for adaptive, multi-path AMHS infrastructure.

Market Scope

Market Dynamics

Drivers

How Is the Increasing Demand for Advanced Node Semiconductors Accelerating the Adoption of AMHS in Fabrication Facilities?

Increasing demand for advanced node semiconductors is projected to accelerate the market in the coming years. Chipmakers are moving toward sub-5nm technologies, creating a need for cleanroom conditions to perform the process of the movement of material with utmost precision to maintain the integrity of the wafer reservoir. The extreme ultraviolet (EUV) lithography and 3D stacking approaches demand high precision and high speed of the operations, which manual work cannot match.

Fully automated systems with tracking, precision robotics, and AI enhancements guarantee precision, resulting in increased production capacity and improved product quality. TSMC, Samsung, and Intel are the Semiconductor giants that further invest in the full integration of AMHS infrastructure to support the production of next-generation chips. More recently, TSMC has planned to ramp up 2nm production by 2025 and further the limits of fabrication complexity. With the comprehensive 2nm ramp, the need for intelligent material handling arises, Digitimes and Nikkei Asia have reported.  Furthermore, the high need for yield improvement and process control is expected to reinforce the integration of intelligent AMHS platforms.

Restraint

High Capital Investment Requirements Limit Adoption Among Small and Mid-Sized Semiconductor Fabs

High capital expenditure associated with AMHS installations is expected to limit the market growth. The systems of overhead hoist transports, stockers, robotic systems, and AI-enabled control software also need substantial initial investment, the adaptation of cleanrooms, and integration periods. Additionally, the rigid configuration of legacy AMHS infrastructure is projected to restrict adaptation to new process flows, further hindering the market.

Opportunity

What Is Encouraging Semiconductor Manufacturers to Deploy Advanced AMHS in Lights-Out, Fully Automated Fabs?

Surging investments in fully automated, lights-out fabs are likely to create opportunities for the players competing in the AMHS technologies market. The trend in main technology areas such as Taiwan, South Korea, Japan, and the U.S is that foundries and IDMs are increasingly seeking to build high-throughput, labor-free manufacturing ecosystems. Automated material handling is central in these facilities to ensure the uninterrupted rounds of production, 24 hours a day and 7 days a week.

Stocker systems are also integrated with robot arms and overhead hoist transports (OHTs) to seamlessly deliver the wafers. This facilitates both predictive maintenance and shadow monitoring with a digital twin. As the Taiwan Ministry of Economic Affairs (MOEA) reports, in Q2 2024, TSMC has expanded its Southern Taiwan Science Park campus, including newer AMHS units it has progressively developed together with local automation companies. Companies, such as GlobalFoundries and Texas Instruments, are focusing on automation as part of premises scale-up and reshaping strategies. Furthermore, the rising adoption of Industry 4.0 practices in semiconductor manufacturing is estimated to boost reliance on connected and smart AMHS systems. (Source: https://investor.tsmc.com)

Component Type Insights

What Made Robotic Systems the Dominant Segment in the AMHS for Semiconductor Market in 2024?

The robotic systems segment dominated the market in 2024, accounting for an estimated 45% share, driven by the growing need for increased throughput and enhanced process repeatability within semiconductor fabs. Robotic systems facilitate ultra-clean wafer and reticle handling, thereby reducing contamination and alignment inaccuracies. Furthermore, investments in robotic automation by firms such as Texas Instruments and GlobalFoundries, as part of their fab expansion strategies and lights-out manufacturing programs, further bolstered segmental growth.

The AHMS segment is expected to grow at the fastest rate in the coming years. This is because of rising demand for automation solutions from foundries. AHMS integrates automated transport with real-time diagnostics, predictive maintenance, and integration with digital twins and MES. Japan's METI included predictive diagnostics using AHMS as a key area for semiconductor competitiveness in its 2024 Smart Manufacturing Roadmap. Moreover, the increasing popularity of cleanroom orchestration, enhanced by digital twins and AI, is further boosting the segment's expansion.
(Source: https://ieeexplore.ieee.org)

Technology Insights

Why Did the Robotics-Based AHMS Dominate the Semiconductor AMHS Market?

The robotics-based AHMS segment led the market, with a 55% share in 2024, and is expected to sustain growth in the coming years. This is because it minimizes contamination risks and ensures precise, consistent handling of delicate semiconductor components. Robotics-based AHMS is a reliable solution for intra-bay and inter-bay transport, essential for the 24/7 production schedules of fabs. By 2024, Lam Research had expanded its collaborations to include major automation suppliers to retrofit older fabs in South Korea and Arizona with robotics-powered AHMS, driven by rising chip demand.

The rise of 3D IC packaging and advanced nodes has increased the need for high-speed robotic arms in fabs, reducing handling errors and protecting wafers throughout various processes. Robotics vendors like Daifuku, Murata Machinery, and Kawasaki Robotics are enhancing their semiconductor offerings with embedded vision units and edge computing capabilities. Additionally, the introduction of new robotic transporters designed for larger chip fabrication facilities is further driving segmental growth. (Source: https://www.verdict.co.uk)

In August 2024, FANUC, a global leader in industrial automation, announced a plan to debut its newest range of robots, collaborative robots (cobots), factory automation systems, and advanced machining solutions at the International Manufacturing Technology Show (IMTS) 2024. The company will also showcase two innovative controller technologies during the event. (Source: https://www.fanucamerica.com)

End-Use Industry Insights

How Does the Semiconductor Fabrication Segment Dominate the Market in 2024?

The semiconductor fabrication segment dominated the AMHS for semiconductor market, accounting for a 60% share in 2024, due to the widespread adoption of AMHS in front-end fabrication plants to manage the increased complexity of wafer movement. Leading chipmakers are investing heavily in highly automated fabs, integrating OHT, AGVs, and robotics to boost throughput and improve operational efficiency. According to the Semiconductor Industry Association (SIA) in 2024, wafer manufacturing capacity grew by over 12% globally due to the rising demand for AI, automotive, and HPC chips. These manufacturing expansions have necessitated robust AMHS infrastructures, which ensure continuous operations and further facilitate the segment.
(Source: https://www.semiconductorpackagingnews.com)

The semiconductor assembly & packaging segment is expected to grow at the fastest CAGR in the coming years, driven by the growing trends of heterogeneous integration, 2.5D/3D IC packaging, and chiplet-based architectures. Moreover, the rising demand for highly automated packaging processes for advanced AI accelerators is further fueling the segment's growth.

System Type Insights

What Made Wafer Handling Systems the Dominant Segment in the Market in 2024?

The wafer handling systems segment dominated the AMHS for semiconductor market while holding a 40% share in 2024. This is mainly due to the increased need for ultra-clean, high-precision automation to handle wafers during various processing phases in front-end fabs. Additionally, increased investment in automated front-end tool loading platforms further drives the adoption of wafer handling systems.

The material transfer systems segment is expected to grow at the fastest rate in the coming years, driven by the shift towards smart logistics within facilities and the increasing demand for higher throughput. These systems ensure the smooth transport of wafers and consumables across fab zones using overhead transport, conveyors, and autonomous mobile robots (AMRs). Furthermore, automation integrators are enhancing tool-to-tool communication through SEMI E84-compliant systems, which accelerate cycle times and improve fab productivity, thereby boosting the segment's growth.

Deployment Type Insights

How Does the On-Site Deployment Segment Dominate the Market in 2024?

The on-site deployment segment dominated the AMHS for semiconductor market, holding about 70% share in 2024, due to the increased need for local control, data security, and real-time equipment synchronization in high-value manufacturing facilities like semiconductor fabs. Major chip companies prioritized on-premise deployments of automation and material handling systems to minimize latency and closely manage their process-related patent information. Moreover, data sovereignty legislation, mandated by governments in countries such as Japan, South Korea, and the European Union, has further driven the need for secure, on-premise automation systems.

The cloud-based systems segment is expected to grow at the fastest CAGR over the projection period, driven by the increasing adoption of Industry 4.0 and smart manufacturing practices throughout the global semiconductor value chain. Companies have begun testing and piloting cloud-integrated AMHS modules, incorporating remote monitoring, analytics-driven decision-making, and cross-site optimization. Moreover, the utilization of cloud technology in semiconductor operations is rapidly expanding in response to the need to enhance flexibility, scalability, and synchronization across manufacturing nodes on a global scale within fabs.

Application Insights

Why Did the Wafer Processing Segment Lead the Market in 2024?

The wafer processing segment led the AMHS for semiconductor market with a 50% revenue share in 2024, due to the high demands for precision, cleanliness, throughput, and sensitivity in front-end semiconductor manufacturing. The increasing complexity of wafer nodes, scaling down to below 5nm, and the implementation of advanced EUV lithography require highly advanced wafer processing technology. Furthermore, foundries have significantly increased their adoption of AMHS platforms to automate the wafer flow through hundreds of processing steps.

The chip packaging and final assembly segment is expected to grow at the fastest CAGR during the forecast period, driven by a shift toward heterogeneous integration, system-in-package (SiP), and novel packaging formats within the advanced packaging sector. Backend manufacturing leaders, including ASE Group, Amkor Technology, and JCET, have initiated the process of modernizing their packaging with the adoption of automated handling systems. Furthermore, their ability to be utilized in cleanrooms, in response to the increasing complexity of chiplets and the integration of mixed technologies, is further likely to propel the segment's growth in the coming years.

AMHS for semiconductor Market Companies

• Yaskawa Electric Corporation
• Universal Robots
• Teradyne Inc.
• STMicroelectronics
• Siemens AG
• Rohm Semiconductor
• Omron Corporation
• Nidec Corporation
• Mitsubishi Electric Corporation
• KUKA AG
• Keyence Corporation
• HIMA Paul Hildebrandt GmbH
• Festo AG & Co.
• FANUC Corporation
• Denso Corporation
• Cognex Corporation
• Brooks Automation, Inc.
• Autodesk, Inc.
• Applied Materials, Inc.
• ABB Ltd.

Recent Developments

• In March 2025, MeetFuture unveiled its latest-generation AMHS intelligent transport platform, the SkySail SS5000 Series OHT (Overhead Hoist Transport) System. As a leading innovator in China’s AMHS sector, Dr. Keeylee LI, Chief Technology Officer of MeetFuture, led the launch event as the keynote speaker. 
  In December 2024, VisionPower Semiconductor Manufacturing Company Pte Ltd (VSMC), the joint venture launched in September 2024 by Vanguard International Semiconductor Corporation (VIS, TPEx 5347) and NXP Semiconductors N.V. (NXP, NASDAQ: NXPI), marked the groundbreaking of its new 300mm wafer fab in Tampines, Singapore.
• In August 2024, Texas Instruments (TI) and the U.S. Department of Commerce entered into a Preliminary Memorandum of Terms for up to $1.6 billion in proposed direct support through the CHIPS and Science Act, aiding three 300mm wafer fabs currently under construction in Texas and Utah.

(Source: https://www.meetfuture.com)
(Source: https://www.nxp.com)
(Source: https://www.prnewswire.co.uk)
(Source: https://ir.appliedmaterials.com)
(Source: https://www.ti.com/about-ti/newsroom)

Segments Covered in the Report

By Component Type

• Robotic Systems
  • Articulated Robots
  • Cartesian Robots
  • SCARA Robots
  • Delta Robots
• Automated Material Handling Systems (AMHS)
  • Overhead Hoists
  • Automated Guided Vehicles (AGVs)
  • Conveyor Systems
• Control Systems
  • Centralized Control Systems
  • Distributed Control Systems

By Technology

• Robotics-based AHMS
  • Collaborative Robots (Cobots)
  • Autonomous Mobile Robots (AMRs)
• Automated Transport Systems
  • Conveyor Belt Systems
  • Vacuum Lifts
• Vision and Inspection Systems
  • Optical Inspection Systems
  • 3D Visual Inspection

By End-Use Industry

• Semiconductor Fabrication
• Semiconductor Assembly & Packaging
• Wafer Handling
• Other (Testing, Sorting)

By System Type

• Wafer Handling Systems
• Die Handling Systems
• Material Transfer Systems
• Packaging and Assembly Systems
• By Deployment Type
• On-Site Deployment
• Cloud-based Systems

By Application

• Wafer Processing
• Wafer Transport
• Testing and Inspection
• Chip Packaging and Final Assembly

By Region

• North America
• Europe
• Asia Pacific
• Latin America
• Middle East & Africa