The global area gripper market is valued at USD 337.9 million in 2025 and is projected to reach USD 510 million by 2035, expanding at a CAGR of 4.2%. The market will add USD 172.1 million in value over ten years, growing 1.5X during the period. Between 2025 and 2030, the area gripper market increases from USD 337.9 million to USD 398.5 million, contributing USD 60.5 million, or 35% of total decade growth. The remaining 65%, or USD 111.5 million, is forecast between 2030 and 2035, when adoption of advanced robotic grippers becomes mainstream.
Integrated vacuum generation systems account for approximately 71% of the area gripper market, driven by demand for self-contained, energy-efficient gripper units suitable for automated production lines and collaborative robot platforms. By application, wood processing holds about 35.3% share, followed by metal processing at ~24.2%, logistics at ~19.7%, electronics at ~13.1%, and other sectors at 7.7%. Regional growth leadership is led by China (5.7% CAGR) and India (5.3% CAGR), followed by Germany (4.8%), Brazil (4.4%), and the United States (4.0%). The market remains moderately concentrated, with leading suppliers such as Schmalz, AERO-LIFT, EuroTECH, and SMC accounting for a significant share through strong automation integration and application engineering capabilities.
The latter half (2030-2035) will witness sustained growth from USD 398.5 million to USD 510 million, representing an addition of USD 111.5 million or 65% of the decade's expansion. This period will be defined by mass market penetration of specialized gripper configurations, integration with collaborative robot platforms, and seamless compatibility with existing factory automation infrastructure. The market trajectory signals fundamental shifts in how manufacturers approach material handling optimization and production efficiency management, with participants positioned to benefit from sustained demand across multiple vacuum generation types and industrial application segments.
The 2025-2030 phase adds USD 60.5 million to market value, representing 35% of total decade expansion. Market maturation factors include standardization of industrial automation protocols, declining component costs for specialized vacuum systems, and increasing industry awareness of material handling efficiency benefits reaching diverse manufacturing and logistics applications. Competitive landscape evolution during this period features established gripper manufacturers like Schmalz and AERO-LIFT expanding their product portfolios while technology specialists focus on advanced sensor development and enhanced gripper performance capabilities.
From 2030 to 2035, market dynamics shift toward comprehensive automation integration and global manufacturing expansion, with growth continuing from USD 398.5 million to USD 510 million, adding USD 111.5 million or 65% of total expansion. This phase transition centers on intelligent gripper systems, integration with Industry 4.0 networks, and deployment across diverse manufacturing and logistics scenarios, becoming standard rather than specialized applications. The competitive environment matures with focus shifting from basic gripping capability to comprehensive automation optimization systems and integration with production monitoring platforms.
At-a-Glance Metrics
| Metric | Value |
|---|---|
| Market Value (2025) | USD 337.9 million |
| Market Forecast (2035) | USD 510 million |
| Growth Rate | 4.2% CAGR |
| Leading Technology | Integrated Vacuum Generation |
| Primary Application | Wood Processing |
The market demonstrates strong fundamentals with integrated vacuum generation systems capturing a dominant share through advanced control interfaces and energy optimization capabilities. Wood processing applications drive primary demand, supported by increasing industrial automation and material handling efficiency requirements. Geographic expansion remains concentrated in developed markets with established manufacturing infrastructure, while emerging economies show accelerating adoption rates driven by factory automation and rising productivity standards.
Market expansion rests on three fundamental shifts driving adoption across wood processing, metalworking, and logistics sectors. First, automation efficiency demand creates compelling operational advantages through area grippers that provide immediate handling speed improvement and production optimization without compromising material safety standards, enabling manufacturers to meet throughput targets while maintaining process control and reducing manual handling risks. Second, manufacturing modernization accelerates as industrial facilities worldwide seek advanced vacuum systems that complement traditional handling processes, enabling precise object manipulation and cycle time reduction that align with Industry 4.0 standards and production requirements.
Third, labor cost optimization drives adoption from wood processing facilities and metalworking operations requiring effective handling solutions that maximize productivity while maintaining operational safety during material transfer and assembly operations. However, growth faces headwinds from initial investment cost challenges that vary across gripper suppliers regarding system complexity and customization requirements, which may limit adoption in cost-sensitive manufacturing environments. Technical limitations also persist regarding surface compatibility and payload capacity constraints that may reduce effectiveness in specialized material handling scenarios, which affect gripper performance and application versatility.
The area gripper market represents a specialized yet critical automation opportunity driven by expanding global manufacturing operations, industrial robotics modernization, and the need for superior material handling efficiency in diverse production applications. As manufacturers worldwide seek to achieve productivity enhancement, reduce labor dependency, and integrate advanced gripper systems with robotic platforms, area grippers are evolving from basic vacuum tools to sophisticated handling solutions ensuring operational excellence and manufacturing competitiveness.
The market's growth trajectory from USD 337.9 million in 2025 to USD 510 million by 2035 at a 4.2% CAGR reflects fundamental shifts in industrial automation requirements and material handling optimization. Geographic expansion opportunities are particularly pronounced in Asia Pacific markets, while the dominance of integrated vacuum generation systems and wood processing applications provides clear strategic focus areas.
Strengthening the dominant integrated vacuum generation segment through enhanced energy efficiency, superior control precision, and compact design systems. This pathway focuses on optimizing vacuum generation, improving response times, extending operational effectiveness to diverse material surfaces, and developing specialized configurations for challenging applications. Market leadership consolidation through advanced vacuum engineering and sensor integration enables premium positioning while defending competitive advantages against external generation systems. Expected revenue pool: USD 65-85 million
Rapid industrial automation and manufacturing growth across Asia Pacific creates substantial expansion opportunities through local production capabilities and technology transfer partnerships. Growing factory automation and government Industry 4.0 initiatives drive sustained demand for advanced gripper systems. Localization strategies reduce procurement costs, enable faster technical support, and position companies advantageously for manufacturing programs while accessing growing domestic markets. Expected revenue pool: USD 55-75 million
Expansion within the dominant wood processing segment through specialized gripper designs addressing material handling standards and high-throughput production requirements. This pathway encompasses automated panel handling systems, surface protection features, and compatibility with diverse woodworking machinery processes. Premium positioning reflects superior handling reliability and comprehensive production integration supporting modern wood manufacturing operations. Expected revenue pool: USD 50-70 million
Strategic expansion into metal processing applications requires enhanced load capacity and specialized gripper configurations addressing metalworking operational requirements. This pathway addresses sheet metal handling, stamping operation integration, and heavy-duty material transfer with advanced vacuum engineering for demanding industrial standards. Premium pricing reflects specialized performance requirements and extended durability standards. Expected revenue pool: USD 45-65 million
Development of specialized gripper configurations for logistics applications and electronics manufacturing, addressing specific handling requirements and delicate material demands. This pathway encompasses lightweight designs, static-dissipative materials, and precision handling capabilities for emerging automation segments. Technology differentiation through application-specific engineering enables diversified revenue streams while reducing dependency on traditional manufacturing platforms. Expected revenue pool: USD 35-50 million
Expansion of external vacuum generation segment through enhanced system flexibility, centralized vacuum supply compatibility, and multi-gripper operation capabilities. This pathway encompasses high-volume manufacturing applications, centralized vacuum systems, and factory-wide vacuum networks requiring comprehensive supply infrastructure. Market development through flexible system architecture enables differentiated positioning while accessing large-scale manufacturing facilities requiring centralized vacuum solutions. Expected revenue pool: USD 30-45 million
Development of intelligent gripper systems addressing predictive maintenance and real-time monitoring requirements across manufacturing and logistics applications. This pathway encompasses sensor integration, data analytics capabilities, and comprehensive condition monitoring functionality. Premium positioning reflects technology leadership and digitalization expertise while enabling access to Industry 4.0-focused procurement programs and smart manufacturing partnerships. Expected revenue pool: USD 25-40 million
Primary Classification: The market segments by vacuum generation type into Integrated Vacuum Generation and External Vacuum Generation categories, representing the evolution from centralized vacuum supply systems to self-contained gripper solutions for comprehensive material handling optimization.
Secondary Classification: Application segmentation divides the market into Wood Processing, Metal, Logistics, Electronics, and Others sectors, reflecting distinct requirements for handling capacity, surface compatibility, and operational speed standards.
Regional Classification: Geographic distribution covers Asia Pacific, Europe, North America, and other regions, with developed markets leading adoption while emerging economies show accelerating growth patterns driven by manufacturing automation programs.
The segmentation structure reveals technology progression from external vacuum systems toward integrated generation solutions with enhanced portability and control capabilities, while application diversity spans from wood panel handling to specialized electronics manufacturing requiring precise gripper solutions.
Market Position: Integrated vacuum generation systems command the leading position in the Area Gripper market with approximately 71.0% market share through advanced design features, including self-contained operation capability, energy efficiency optimization, and installation simplicity that enable manufacturers to achieve optimal material handling across diverse industrial and logistics environments.
Value Drivers: The segment benefits from manufacturer preference for autonomous systems that provide immediate deployment capability, reduced infrastructure requirements, and operational flexibility without requiring centralized vacuum supply modifications. Advanced integration features enable portable operation, quick installation, and compatibility with collaborative robots, where system independence and deployment speed represent critical operational requirements.
Competitive Advantages: Integrated vacuum generation systems differentiate through proven energy efficiency, consistent performance reliability, and integration with robotic platforms that enhance operational effectiveness while maintaining optimal handling precision suitable for diverse manufacturing applications.
Key market characteristics:
External vacuum generation systems maintain strategic positioning in the Area Gripper market due to their high-capacity handling capabilities and centralized supply advantages. These systems appeal to manufacturers requiring multiple gripper operation, sustained vacuum levels, and factory-wide vacuum distribution for large-scale production operations. Market adoption is driven by heavy-industry manufacturing emphasis, featuring centralized vacuum infrastructure and high-volume material handling through optimized external generation systems while maintaining cost-effective operation at scale.
Market Context: Wood processing applications dominate the Area Gripper market with approximately 35.3% market share due to widespread adoption of automated panel handling and increasing focus on production efficiency, material protection, and throughput optimization applications that minimize surface damage while maintaining woodworking industry standards.
Appeal Factors: Wood processing manufacturers prioritize handling reliability, surface compatibility, and integration with existing CNC machinery that enables coordinated gripper application across multiple production lines. The segment benefits from substantial furniture manufacturing investment and automation programs that emphasize the acquisition of vacuum grippers for quality improvement and labor reduction applications.
Growth Drivers: Furniture manufacturing modernization programs incorporate area grippers as standard equipment for automated wood handling operations, while engineered wood production growth increases demand for gentle handling capabilities that comply with surface quality standards and minimize material waste.
Market Challenges: Varying wood surface characteristics and moisture content differences may limit gripper standardization across different material types or operational scenarios.
Application dynamics include:
Metal processing applications capture approximately 24.2% market share through specialized handling requirements in sheet metal fabrication, stamping operations, and metal component manufacturing applications. These facilities demand robust gripper systems capable of managing heavy loads while providing reliable material transfer and positioning capabilities.
Logistics applications account for approximately 19.7% market share, electronics manufacturing captures 13.1%, while other segments represent 7.7%, including packaging operations, glass handling, and specialized industrial applications requiring vacuum gripper capabilities for automated material transfer and production efficiency.
Growth Accelerators: Industrial automation expansion drives primary adoption as area grippers provide superior material handling capabilities that enable manufacturers to meet production targets without excessive labor costs, supporting factory modernization missions that require precise object manipulation applications. Manufacturing efficiency enhancement demand accelerates market expansion as industrial facilities seek effective automated systems that minimize cycle times while maintaining operational safety during material transfer and assembly scenarios. Factory automation spending increases worldwide, creating sustained demand for intelligent gripper systems that complement existing robotic infrastructure and provide productivity improvement in competitive manufacturing markets.
Growth Inhibitors: Initial investment cost challenges vary across gripper suppliers regarding system complexity and customization requirements, which may limit operational flexibility and market penetration in regions with budget constraints or cost-sensitive manufacturing operations. Technical performance limitations persist regarding surface compatibility and payload capacity constraints that may reduce effectiveness in specialized material handling, high-temperature, or irregular surface conditions, affecting gripper versatility and application range. Market fragmentation across multiple industrial automation standards and robotic platforms creates compatibility concerns between different gripper manufacturers and existing production infrastructure.
Market evolution patterns show adoption accelerating in wood processing and metalworking sectors where automation justifies gripper investment costs, with geographic concentration in developed markets transitioning toward mainstream adoption in emerging economies driven by manufacturing modernization and labor cost pressures. Technology development focuses on smart sensor integration, artificial intelligence capabilities, and compatibility with collaborative robots that optimize handling precision and operational effectiveness. The market could face disruption if alternative gripping technologies or mechanical gripper innovations significantly limit the deployment of vacuum-based systems in manufacturing applications, though vacuum grippers' unique combination of gentle handling, surface versatility, and rapid operation continues to make them preferred in automated material handling.
The Area Gripper market demonstrates varied regional dynamics with Growth Leaders including China (5.7% CAGR) and India (5.3% CAGR) driving expansion through manufacturing automation initiatives and industrial robotics modernization programs. Steady Performers encompass Germany (4.8% CAGR), Brazil (4.4% CAGR), and United States (4.0% CAGR), benefiting from established manufacturing infrastructure and advanced automation adoption. Mature Markets feature United Kingdom (3.6% CAGR) and Japan (3.2% CAGR), where specialized industrial applications and robotic system integration support consistent growth patterns.
| Country | CAGR (2025-2035) |
|---|---|
| China | 5.7% |
| India | 5.3% |
| Germany | 4.8% |
| Brazil | 4.4% |
| United States | 4.0% |
| United Kingdom | 3.6% |
| Japan | 3.2% |
Regional synthesis reveals Asia Pacific markets leading adoption through manufacturing expansion and industrial automation infrastructure development, while European countries maintain steady expansion supported by robotics technology advancement and production efficiency standardization requirements. North American markets show moderate growth driven by manufacturing reshoring applications and factory modernization integration trends.
The Chinese market emphasizes advanced gripper features, including intelligent control systems and comprehensive robotic platform compatibility that coordinate material handling, production optimization, and quality management applications through unified automation systems. The country demonstrates strong growth at 5.7% CAGR, driven by manufacturing capacity expansion, factory automation initiatives, and emerging robotics industry development that support area gripper integration. Chinese manufacturers prioritize operational effectiveness with grippers delivering consistent handling performance through advanced sensor capabilities and control system features.
Technology deployment channels include major furniture manufacturers, metalworking facilities, and logistics centers that support professional applications for complex material handling and high-volume production applications. Gripper integration capabilities with domestic robotic systems expand market appeal across diverse operational requirements seeking productivity improvement and labor cost reduction benefits. The expanding manufacturing sector and accelerating automation adoption create sustained demand, while innovative applications in e-commerce logistics and smart manufacturing open new growth avenues.
Performance Metrics:
Germany's advanced manufacturing market demonstrates sophisticated gripper deployment with documented operational effectiveness in industrial automation applications and robotic handling facilities through integration with existing Industry 4.0 systems and production infrastructure. The country leverages engineering expertise in precision manufacturing and automation systems integration to maintain strong growth at 4.8% CAGR. Industrial centers, including Stuttgart, Munich, and Hamburg, showcase advanced installations where gripper systems integrate with comprehensive factory automation platforms and robotic networks to optimize production operations and handling effectiveness.
German manufacturers prioritize system reliability and performance standards in gripper development, creating demand for precision-engineered systems with advanced features, including force-sensing capabilities and adaptive control systems. The market benefits from established manufacturing infrastructure and willingness to invest in automation technologies that provide long-term productivity benefits and compliance with international quality and safety standards.
Market Intelligence Brief:
The USA area gripper market demonstrates sophisticated deployment across industrial applications with documented effectiveness in automotive manufacturing and aerospace production facilities through integration with comprehensive automation systems and robotic handling infrastructure. The country leverages advanced technology capabilities in robotics development and manufacturing automation to maintain moderate growth at 4.0% CAGR. Industrial centers, including Detroit, Chicago, and Los Angeles, showcase advanced installations where gripper systems integrate with comprehensive production platforms and material handling networks to optimize manufacturing operations and handling effectiveness.
American manufacturers prioritize innovation and customization capabilities in gripper development, creating demand for flexible systems with advanced features, including collaborative robot compatibility and intelligent sensing capabilities. The market benefits from established automation infrastructure and willingness to invest in advanced manufacturing technologies that provide long-term productivity benefits and compliance with operational efficiency standards.
Market Intelligence Brief:
The UK area gripper market demonstrates steady automation adoption with documented operational effectiveness in manufacturing applications and industrial handling facilities through integration with existing robotic systems and production infrastructure. The country leverages technology expertise in automation engineering and manufacturing process optimization to maintain steady growth at 3.6% CAGR. Industrial centers, including Birmingham, Manchester, and Leeds, showcase manufacturing installations where gripper systems integrate with comprehensive automation platforms and production management networks to optimize operational efficiency and handling effectiveness.
British manufacturers prioritize system integration and operational flexibility in gripper development, creating demand for adaptable systems with advanced features, including multi-material compatibility and rapid changeover capabilities. The market benefits from established manufacturing infrastructure and commitment to invest in automation technologies that provide long-term productivity benefits and compliance with UK industrial standards. Automotive component production, packaging automation, and logistics handling drive diversified demand across multiple industrial segments.
Strategic Market Indicators:
India's area gripper market demonstrates rapid expansion with documented operational effectiveness in manufacturing applications and industrial automation facilities through integration with emerging robotic systems and production modernization infrastructure. The country leverages growing manufacturing capabilities in automation adoption and industrial process engineering to achieve high growth at 5.3% CAGR. Industrial centers, including Mumbai, Pune, and Bangalore, showcase expanding installations where gripper systems integrate with comprehensive automation platforms and material handling networks to optimize production efficiency and handling effectiveness.
Indian manufacturers prioritize cost optimization and productivity enhancement in gripper development, creating demand for economical systems with essential features, including reliable vacuum generation and standard robotic compatibility. The market benefits from expanding manufacturing infrastructure and willingness to invest in automation solutions that provide operational efficiency and compliance with production standards.
Market Intelligence Brief:
Brazil's area gripper market demonstrates steady expansion with documented operational effectiveness in manufacturing applications and industrial automation facilities through integration with robotic systems and production infrastructure. The country leverages developing manufacturing capabilities in automation adoption and industrial modernization to maintain moderate growth at 4.4% CAGR. Industrial centers, including São Paulo, Campinas, and Curitiba, showcase growing installations where gripper systems integrate with comprehensive automation platforms and production networks to optimize manufacturing operations and material handling.
Brazilian manufacturers prioritize operational reliability and application versatility in gripper development, creating demand for robust systems with essential features, including dust resistance and maintenance simplicity. The market benefits from expanding automotive sector and commitment to invest in manufacturing technologies that provide productivity improvements and operational efficiency benefits.
Strategic Market Indicators:
Japan's area gripper market demonstrates precision deployment with documented operational effectiveness in advanced manufacturing applications and robotic automation facilities through integration with sophisticated control systems and quality management infrastructure. The country leverages engineering excellence in robotics integration and manufacturing precision to maintain steady growth at 3.2% CAGR. Industrial centers, including Tokyo, Nagoya, and Osaka, showcase advanced installations where gripper systems integrate with comprehensive quality management platforms and robotic networks to optimize production excellence and handling effectiveness.
Japanese manufacturers prioritize system precision and reliability in gripper development, creating demand for high-performance systems with advanced features, including micro-positioning capabilities and intelligent feedback systems. The market benefits from established robotics infrastructure and commitment to invest in highest-quality automation technologies that provide superior operational performance and compliance with stringent Japanese manufacturing standards.
Strategic Market Indicators:
The Area Gripper market in Europe is projected to grow substantially over the forecast period, with Germany expected to maintain its leadership position with a significant market share supported by its advanced manufacturing infrastructure and major industrial centers in Stuttgart and Munich. Italy follows with strong market presence, driven by comprehensive furniture manufacturing programs and woodworking automation initiatives. The United Kingdom holds substantial market share through specialized automotive manufacturing activities, logistics automation applications, and industrial production facilities. France commands notable market presence through strong aerospace manufacturing and metalworking projects. Spain accounts for growing market share aided by furniture production expansion and industrial automation adoption. The Netherlands maintains steady share driven by logistics automation and packaging industry demand. The Rest of Europe region is anticipated to show steady adoption, reflecting consistent growth in Nordic countries, manufacturing expansion in Central European markets, and factory modernization upgrades across Eastern European industrial facilities.
In Japan, the Area Gripper market prioritizes integrated vacuum generation systems, which capture the dominant share of manufacturing and robotic installations due to their advanced features, including precision energy management optimization and seamless integration with existing collaborative robot infrastructure. Japanese industrial operators emphasize reliability, precision control, and long-term operational excellence, creating demand for integrated systems that provide consistent gripper capabilities and superior handling performance based on manufacturing requirements and quality standards. External vacuum generation maintains secondary positions primarily in large-scale automotive manufacturing and centralized factory installations where comprehensive vacuum infrastructure meets requirements without compromising production efficiency.
Market Characteristics:
In South Korea, the market structure favors international gripper manufacturers, including Schmalz, SMC, and Piab, which maintain dominant positions through comprehensive product portfolios and established industrial networks supporting both large manufacturing implementations and specialized robotic installations. These providers offer integrated solutions combining advanced vacuum gripper systems with professional technical support and ongoing service management that appeal to Korean manufacturers seeking reliable automation handling solutions. Local automation equipment suppliers and system integrators capture moderate market share by providing localized service capabilities and competitive pricing for standard industrial gripper installations, while domestic manufacturers focus on specialized applications and cost-effective solutions tailored to Korean manufacturing market characteristics.
Channel Insights:
The Area Gripper market operates with moderate concentration, featuring approximately 15-18 meaningful participants, where leading companies control roughly 55-60% of the global market share through established industrial relationships and comprehensive vacuum gripper portfolios. Competition emphasizes advanced engineering capabilities, robotic system compatibility, and application versatility rather than price-based rivalry. The leading company, Schmalz, commands approximately 26.0% market share through its extensive gripper product line and global industrial automation presence.
Market Leaders encompass Schmalz, AERO-LIFT, and EuroTECH, which maintain competitive advantages through extensive vacuum technology expertise, global industrial networks, and comprehensive application engineering capabilities that create customer loyalty and support premium pricing. These companies leverage decades of automation experience and ongoing innovation investments to develop advanced gripper systems with intelligent control features and robotic integration capabilities. Technology Innovators include SMC, Piab, and Coval, which compete through specialized vacuum component technology focus and innovative gripper designs that appeal to manufacturers seeking advanced automation solutions and handling performance.
These companies differentiate through rapid product development cycles and specialized industrial application focus. Regional Specialists feature gripper manufacturers focusing on specific geographic markets and specialized applications, including lightweight handling systems and custom gripper solutions. Market dynamics favor participants that combine reliable vacuum performance with advanced system capabilities, including sensor integration and predictive maintenance optimization features. Competitive pressure intensifies as traditional pneumatic component suppliers expand into intelligent gripper systems, while specialized robotics companies challenge established players through innovative collaborative robot solutions and integrated handling platforms targeting manufacturing and logistics automation segments.
| Item | Value |
|---|---|
| Quantitative Units | USD 337.9 million |
| Vacuum Generation Type | Integrated Vacuum Generation, External Vacuum Generation |
| Application | Wood Processing, Metal, Logistics, Electronics, Others |
| Regions Covered | Asia Pacific, Europe, North America, Latin America, Middle East & Africa |
| Countries Covered | China, India, Germany, United States, United Kingdom, Japan, Brazil, and 20+ additional countries |
| Key Companies Profiled | Schmalz, AERO-LIFT, EuroTECH, SMC, Piab, Coval, FIPA, DAB Technology, Vacuforce, Zimmer Group, OnRobot, UniGripper, GIMATIC, VUOTOTECNICA |
| Additional Attributes | Dollar sales by vacuum generation type and application categories, regional adoption trends across Asia Pacific, Europe, and North America, competitive landscape with gripper manufacturers and automation system suppliers, manufacturer preferences for handling reliability and robotic integration, integration with industrial automation platforms and production monitoring systems, innovations in intelligent sensor capabilities and control precision, and development of collaborative robot solutions with enhanced performance and material handling optimization capabilities. |
The global area gripper market is estimated to be valued at USD 337.9 million in 2025.
The market size for the area gripper market is projected to reach USD 509.9 million by 2035.
The area gripper market is expected to grow at a 4.2% CAGR between 2025 and 2035.
The key product types in area gripper market are integrated vacuum generation and external vacuum generation.
In terms of application, wood processing segment to command 35.3% share in the area gripper market in 2025.
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Interviews & case studies
Strategic recommendations
Vendor profiles & capabilities analysis
5-year forecasts
8 regions and 60+ country-level data splits
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