Global Hydrogen Technology TIC Market 2025 – 2034

Reports Description

As per the Hydrogen Technology TIC Market analysis conducted by the CMI Team, the global Hydrogen Technology TIC market is expected to record a CAGR of 17.5% from 2025 to 2034. In 2024, the market size is projected to reach a valuation of USD 5 Billion. By 2034, the valuation is anticipated to reach USD 18.4 Billion.

Overview

The Hydrogen Technology Testing, Inspection, and Certification TIC market is critical to the ecosystem’s hydrogen systems compliance. With hydrogen consumption increasing, TIC services are growing, with electrolyzers, pipelines, fuel cells and even refueling infrastructure going through certification. This growth in turn facilitates productivity, further highlighting the importance of TIC services. TIC Services assists manufacturers in achieving stringent compliance to global standards while simultaneously mitigating risks and enhancing trust from operators, consumers, and stakeholders alike.

Innovation in Hydrogen Technologies is unprecedented due to global decarbonization goals, which directly contribute to robust growth in the hydrogen technology market. Leading firms are pursuing investment opportunities in the development of AI-based monitoring systems or advanced testing laboratories tailored towards remote inspection dedicated to hydrogen infrastructure expansion. Europe or North America, along with Asia-Pacific regions, are actively setting up certification frameworks aimed at fulfilling newly developed policies alongside set environmental targets. Hydrogen adoption acceleration by industries alongside green mandate objectives put forth by governments positions TIC providers as principal players within safely scaling up a demand driven hydrogen economy.

Key Trends & Drivers

The Hydrogen Technology TIC market Trends have tremendous growth opportunities due to several reasons:

• Increasing Demand for Hydrogen: The push towards clean energy alternatives has led to the renewed and increased TIC services. They implemented them in May 2025 with the National Green Hydrogen Standards and Certification Framework for large-scale hydrogen deployment. Later, in October 2024, Germany also adopted three EU-certified systems for renewable Hydrogen which incentivized per kilogram payment of verified green Hydrogen and thus created TIC firm momentum. Reinforcing this also expands across production, pipelines, and storage networks as countries begin defining standards while TIC companies broaden their offered services because there are constantly rising needs. This further boosts investment for testing capabilities over the world.

• OEM Involvement in Hydrogen Fuel Cells: The role of OEMs as end integrators is expanding to include hydrogen fuel cells within their mobility and aerospace platforms, prompting the need for specialized TIC services pertaining to safety and performance. Effective February 2024, TÜV SÜD’s accreditation under ISO 22734:2019 allows certification of hydrogen generators, which opens possibilities for collaboration with OEMs on system validation. This makes assistance in testing integration of the fuel cells into vehicles and other industrial systems possible. The integrated OEM-sponsored TIC requirements are developing at a startling pace. Together with Panasonic, Toyota initiated testing on hydrogen fuel cells for logistics fleet applications requiring certification support as of May 2024. The hydrogen-powered mobility expansion presents significant opportunities for collaboration, thus making it a key segment for TIC services. Initiatives like these motivate ongoing inter-organizational collaborative work around the various stages of testing.

• Standardization Initiatives and International Regulations: The lack of unified global standards TIC serves as a roadblock to advancing the trade of hydrogen fuel, as well as establishing infrastructure and uniformity of TIC across regions. With ISO and EU emission and traceability standards, India kickstarted GHCI in April 2025 which positions it with aligned initiatives. Germany also granted recognition to EU certification systems in November 2024, linking them to fiscal subsidies for green hydrogen producers. These frameworks facilitate borderless TIC services. Standardized frameworks help reduce costs as well as eliminate inspections, resulting in streamlined processes. There is an increasing participation of TIC firms in sponsoring these regulations. Global execution of hydrogen projects becomes more efficient thanks to standardized protocols.

Key Threats

The Hydrogen Technology TIC market has several primary threats that will influence its profitability and future development. Some of the threats are:

• Excessive Equipment Costs for TIC: Hydrogen TIC integrates cutting edge, high-pressure machinery and testing labs which makes fixed and operational costs very expensive. Industry analysis in May 2025 noted a calculation and material cost increment of 50% since 2021 on electrolyzers. This discontinuity puts a strain on TIC investment needed for updated laboratory configurations. New materials and formats in hydrogen systems make their tooling as well as certification exceedingly expensive. Often, smaller TIC providers lack sufficient capital to maintain competitive infrastructure industry-wide. As industry benchmarks evolve, legacy setups become obsolete and require rapid replacement, which results in newer equipment needing so much additional focus. These financial burdens may restrict growth to large players alone. Maintaining a certain level of cost efficiency has emerged as one of the core reasons for sustaining competitiveness within the market when it comes to survival.

• Shortage of Skilled Workers in Hydrogen Safety and Inspection: Hydrogen TICs require a very particular set of skills, such as high-pressure testing, gas leak detection, and fuel cell compliance. There are not enough qualified experts in these fields. To address this shortcoming, TÜV SÜD introduced global hydrogen technician training modules covering inspection and safety procedures in September 2024 which aim to fill the gap through education on protocols. While such initiatives are important, there is still a large gap between supply and demand. A shortage of skilled inspectors has led to stagnation for several mid-scale hydrogen infrastructure projects in Europe and Asia. In an effort to improve workforce preparedness, TIC companies have begun offering vacation courses with immediate certification options through self-paced exams to meet growing industry demands faster. Limited manpower is one of the most critical operational risks a business can have. It has become vital to bridge the talent shortage.

• Cybersecurity & Data Privacy Risks in Digital TIC Platforms: As TIC firms digitize through IoT, AI, and remote inspection tools, the risk of cybersecurity breaches rises sharply. In June 2025, several TIC companies reported vulnerabilities in their inspection platforms during security audits, causing certification delays for hydrogen facilities. These tools gather critical infrastructure data, which, if compromised, could pose major safety and regulatory risks. In response, firms have begun investing in zero-trust security frameworks and encrypted data transmission. Regulatory bodies are also adding cybersecurity compliance as a part of TIC checklists. Failure to secure digital platforms can result in reputational and legal damage. Cyber resilience is now vital to maintaining client trust.

Opportunities

• Green Hydrogen Certification Labels: These labels confirm that hydrogen has been generated from renewable resources and produced with emissions below a designated threshold, thereby granting access to premium markets. India launched the Green Hydrogen Certification Initiative (GHCI) in May 2025, enforcing third party verification and traceability. In October 2024, Germany began subsidizing green hydrogen only after certifying it under EU Standards with detailed emission calculations. TIC firms are instrumental in conducting the audits for validation of these labels. Other than producers and exporters looking to meet demand from Europe and Japan, these initiatives are useful for establishing long term contracts, certifying them as trusted providers. Given the increasing urgent needs for hydrogen to be labeled, they seem to rise as foremost innovators in reputational trust validation. 

• Public-Private Partnerships for National Hydrogen Strategies: As marked by various government bodies, PPPs are fostering the development of hydrogen strategies, with specific TIC firms often working on infrastructure certification and quality assurance. Australia’s Initiative “Future Made in Australia” included hydrogen certification infrastructure PPP that was co-developed with TIC support in April 2024. In May 2025, Germany and India proclaimed joint projects with public institutions and private TIC companies to build an integrated testing and verification ecosystem. These PPPs sustain global benchmarks for safety and performance compliance while simultaneously providing substantial, state-supported contracts to the TIC firms in these roles. Participation in such partnerships diversifies a provider’s PPP-related regulatory influence, which enhances contract stability. Such programs create multi-year growth channels for TIC services.

• Training & Accreditation Services for Hydrogen Technicians: The TIC firms established to service the hydrogen economy are initiating the training and accreditation services needed to capitalize on this booming sector. To meet the safety training needs of different regions, TÜV SÜD incorporated Europe and Asia specific trainings into their 2024 agenda, which addresses explosive growth expectations for these areas. In February 2025, UL Solutions introduced online certification programs for hydrogen fuel cell safety and maintenance. These programs help TIC providers monetize training while building internal talent pipelines. As regulatory requirements tighten, certified personnel are now essential. Offering in-house training gives firms a market advantage. This opportunity also reduces recruitment risks and ensures service continuity.

Category Wise Insights

By Service Type

• Testing: The specific services offered include laboratory and field evaluations of hydrogen systems for safety, performance, and regulatory compliance. This type of work includes everything from material characterization to system stress tests. At Bureau Veritas Singapore branch has been handling high pressure equipment and performing fuel cells assessments since March 2023. SGS opened an EU-certified hydrogen test lab in Rotterdam specialized in electrolyzer validation has commence operation in November 2024. These investments are enabling faster equipment approvals and throughput in areas with aggressive growth potential. Turnkey sample prep labs are crucial enablers as infrastructure for hydrogen undergoes rapid scaling.

• Inspection: Inspection services encompass on-site audits, integrity verification, and on-site real-time monitoring of operating hydrogen assets, including pipelines, refueling stations, storage tanks, and others. All these ensure safety and operational compliance standards are continuously met. Intertek North America launched drone-based visual thermal inspection for servicing remote visual/thermal aids to pipelines, which was introduced in June 2024. Other companies kept up with core business trends such as the IoT enabled Hydrogen leak detection dome introduced by TV SUD across Europe and Asia in January 2025. Reductions of downtime greatly improve overall safety outcomes. Burdensomerecent legislation requiring more inspections cutting down on inspection frequencies, prioritizing remote servicing driving up demand enforcing tightening regulations remotely accessible automated tools support faster operations across the board.

• Certification: Within the hydrogen systems context, certification refers to the systematic verification of adherence to global safety, sustainability, and performance standards. It can incorporate audit processes with document assessment as well as lab certificate analysis. As of April 2024, UL Solutions is already approved to certify hydrogen refueling stations in North America under the SAE standards. Subsequently, in May 2025 the EU recognized Bureau Veritas as a CertifHy certifier, allowing them to issue cross-border certifications of green hydrogen within and outside the EU. Certification is increasingly becoming associated with financial rewards and regulatory approvals. TIC firms with certifier status gain a competitive advantage in project bids. Policy shifts are now starting to increase emissions-certified work regarding life-cycle impacts alongside certification.

By Testing Type

• Overpressure, Burst, and Flow Testing: Overpressure, burst, and flow testing assess the structural integrity and operational thresholds of hydrogen equipment under stress. These tests are critical to preventing catastrophic failures. In August 2022, Intertek commissioned a burst-testing rig in Germany for high-volume hydrogen pipe validation. SGS installed a new electrolyzer diagnostics modular flow-testing system at its Rotterdam location in September 2024. These improvements assist in verifying both safety margins and regulatory compliance requirements for newly constructed and existing flow-testing frameworks. Flow testing is part of the process to optimize efficiency and safety while promoting hydrogen throughput. Safety certifications require retrofitted systems to update to the newer materials, as they are constantly being developed.

• Pressure Cycle, Leakage, and Tightness Testing: Pressure cycle testing alongside leakage monitoring component integrity under repeatable loading ensures zero-leak performance over time. Micro-leaks that pose a potential threat to loss and safety are identified during tightness testing. With the opening of automated pressure cycling rigs by TÜV SÜD located in China to provide tank and pipeline certification, the interest in these certification services is expected to grow. In October of 2024, SGS launched their AI powered mobile leak detection services using acoustic sensors in North America. These mobile services will build efficiencies into the certification process on-site, while also meeting the global compliance provisions for leak detection. Policies pertaining to rapid response deployable inspection systems with integrated hydraulic system checkups have emerged due to strict guidelines set by authorities governing regular interval responsiveness.

• Hydrogen Permeation and Compatibility Testing: This testing protects against embrittlement and hydrogen permeation on the materials used in vessels, seals or pipes to keep asset integrity over the long term. Bureau Veritas launched a multi-material permeation test rig that replicates high-pressure hydrogen conditions in May 2025 in France. In December 2023, TÜV SÜD enhanced its Munich lab with modular advanced compatibility testing for polymer and composite seals. Due to the rapid market introduction of new alloys and composites, extensive compatibility testing is now imperative. These solutions allow OEMs to test new materials at an accelerated pace. This also helps make claims regarding extended maintenance-free operation periods coupled with heightened reliability definitive.

By Process

• Generation: Hydrogen production via electrolysis, steam reforming, or biomass pathways all have TIC processes governing them. To facilitate Europe’s green hydrogen expansion initiatives, Intertek acquired an electrolyzer testing lab in Germany in April 2024. In March 2025 SGS released a new remote performance monitoring service for Australian plants as part of an electrolyzer focused maintenance tier upgrade. These offerings assist operators in validating output and safety in real-time during operation. Now offered bundled, services such as commissioning, operator training and digital analytics are provided by TIC frunners. During the generation phase, low carbon TIC is critical towards scaling infrastructure pertaining to hydrogen.

• Storage: With respect to containment of hydrogen gas within pressure vessels, caverns and materials Storage evaluates the integrity while testing systems against compliance with rigorous legal benchmarks. TÜV SOUTH increased their accredited storage labs’ capabilities for South Korea with advanced burst-test facilities adding burst tests for hydrogen storage in June 2023. Bureau Veritas launched on-site large scale storage certification in the US via mobile high-pressure rigs February 2025. As energy infrastructures transition into green hydrogen hubs, need for rigorous validation increases remarkably. Mobile testing fits remote or modular installation points. Service networks are being expanded by TIC providers to better service renewable projects across the world.

• Transportation: Transportation services include the certification of hydrogen trailer pipelines as well as refueling systems for safe transport of distribution. Verification focuses on gaps, pressure control, particulate matter admission, and structural compliance. In September 2022, SGS added pipeline testing packages, which include pressure cycling and weld inspection, to their proprietary line of hydrogen pipeline testing services offered in Canada. In November 2024, TÜV SÜD expanded its portfolio with hydrogen trailers and tube bundle certification NATO-p ADR compliant, issuing certificates for them in Europe. These performed services are crucial for logistics scaling and cross-border transport compliance. TIC providers are now collaborating with OEMs that manufacture tanker and pipeline equipment. Certification ensures safe regional mobility of hydrogen while supporting their transport scale.

By Application

• Mobility: Regional and long-distance hydrogen-powered automobiles, buses, trucks, trains, as well as aircraft, necessitate TIC for their fuel systems and safety compliance onboard. Intertek initiated the test program on train fuel systems in Japan in July 2023. And just this past April 2025, TÜV SÜD opened a hydrogen mobility lab aimed at certifying heavy-duty vehicles along with their refueling interfaces in Germany. The rising acceptance of hydrogen vehicles in Europe and Asia has positioned TIC services as essential prerequisites in implementation strategies. Certification paths assist OEMs in tapping into public funding and contracts. TIC providers are active alongside vehicle OEMs, providing validation service integrations.

• Refining and Chemical: Hydrocracking processes or ammonia production require hydrogen utilizing refinement and chemical application, demanding rigorous safety measures alongside performance testing. In February 2023, SGS launched services for testing hydrogen purity adjacent to one of the largest refineries in the UAE. Bureau Veritas partnered with a petrochemical consortium earlier this month to provide integrated TIC services for ammonia export terminals featured in Europe, which led to providing integration of metrology solutions with the patenting system offered by fueling consortia. For such services, assessing impurity limit set through pipeline safety mechanisms along with system control functionality is mandatory. Hydrogen usage has increased due to decarbonizing refiners needing extensive licensure and certification, now starting to go to turnkey auditing documentation services from TIC firms.

• Energy: Hydrogen is employed in power generation, microgrids, and renewable integration technology requiring turbines, as well as storage and conversion systems in the energy sector. TÜV SÜD opened a turbine test facility for hydrogen-powered generators in Texas in May 2024. In August 2022 Intertek was appointed to audit a Canadian hydrogen microgrid trial under the federal initiative Aus$20 million awarded for Australian projects focused on Microgrid innovation. Power and energy TIC requires holistic system testing, including grid integration with control systems, safety layers, and emissions assessment. Fuel cells are embraced as zero-emission flexible energy carriers providing fast decarbonization solutions. Interdisciplinary approaches are required across shared domains.

• Others: These include outside traditional sectors like residential heating or maritime hydrogen initiatives. Hydro-Ready Europe Home Boilers was launched by Bureau Veritas in October 2024 offering certification of hydrogen-ready boilers installed within homes. Later in January 2025 SGS partnered with a cruise line to offer licensure for used auxiliary power units fueled by hydrogen onboard ships advertised as green technologies. While catering to emerging verticals, these providers broaden prospective disciplines, shaping future metrics governing standards essential to regulated frameworks thus new services emerge comprising marine residential safety audits and compliance design, all fostering innovative construction yielding rapid adoption filling cleaner, broader horizons transfused with hybrid applications of advanced technologies found deep within fuel cells while interdisciplinary center around shared shifting paradigms.

Impact of Latest Tariff Policies

The most recent tariff policies are impacting the global Hydrogen Technology Testing, Inspection, and Certification (TIC) market significantly by raising the expenditure of critical parts and systems. The hydrogen import tariffs from China and Europe on electrolyzers, fuel cells and storage are units have strained supply chains causing burden on operational costs for TIC companies. This is compelling companies to shift their sourcing patterns towards production or testing centers in tariff-free regions such as India and Vietnam. Increased operational costs are also forcing postponement of project execution by end-users which dampens hydrogen adoption progress.

As a result of these measures, there is also an increase in cross border regulatory fragmentation within primary markets. Trade barriers create divergent national policies, which result in more inconsistencies relating to hydrogen certification standards. The European Union offers tariff exemptions but only under stringent carbon footprint and lifecycle emissions criteria which complicates matters for internationally operating TIC providers. This forces businesses to broaden their scope of work due to multiple compliance requirements resulting in increased administrative load along with lengthened timelines for testing and validation.

Regardless of the difficulties faced, the changing landscape of tariffs offers new possibilities for opportunistic growth. Governments in North America are particularly supportive of domestic hydrogen initiatives through tax breaks and subsidies, which motivates TIC companies to localize their operations. Consequently, firms are adopting digital inspection technologies, AI-driven monitoring systems, and blockchain certification tools. These technologies enhance compliance and accountability while reinforcing the role of TIC providers as vital facilitators in clean energy infrastructure development within dynamic international trade frameworks.

Report Scope

Regional Perspective

The Hydrogen Technology TIC market can be divided across different regions such as North America, Europe, Asia-Pacific, and LAMEA. This is a cursory overview of each region:

• North America: In the hydrogen TIC market, North America remains critical due to policy backing and hydrogen deployment on an industrial scale. With the U.S. investment of $0.75 billion towards clean hydrogen infrastructure expansion in 2023, compliance and safety testing created new opportunities for business. In Canada, SGS aligned with the national hydrogen strategy by expanding testing labs in Alberta in 2024. Intertek also implemented advanced hydrogen pipeline inspection systems in the US in mid-2025. Mexico joined regionally focused initiatives on hydrogen transport and mobility as well. This entire region continues to foster growth through innovation coupled with stringent regulation enforcement.

• Europe: Europe continues to lag no other region in the world in terms of hydrogen TIC as they possess strict certification criteria, environmental goals, and better overall infrastructural development. Germany adopted UE compliant hydrogen certification systems enabling broader use of TÜV SÜDnd Bureau Veritas member companies which expanded their market reach as well. The UK and France are planning impactful inspection driven development of hydrogen corridors. Supporting fuel cell vehicles along with refueling stations became enabled through TÜV SÜD’s new German mobility test lab which opened in April 2025. Spain along with Italy enacted pilot hydrogen zones subjected to continuous TIC monitoring from mid 2023 onward. As per tradition, European countries continue to dominate with a unique blend of safety overt surveillance along with thorough visit traceability but also require rapid worldwide trade access stimulating a strong TIC economy.

• Asia-Pacific: Government support along with plans for expansion of exports has given the hydrogen ecosystem in this region a significant boost. India issued its Green Hydrogen Certification Scheme Handel policy enacting strategic full trade alignment and rigorous third party engagement verification as early as May 2025. During 2023-2024, TÜV SÜD and Intertek increased their inspection and training services in China, Japan, and South Korea. In Australia, hydrogen TIC are integrated during safety and testing phases at their hydrogen hubs while Japan is conducting trials on hydrogen powered trains. Fuel audits on hydrogen was conducted by New Zealand and Taiwan in 2022. The region is responding to strong growth driven by demand for certified hydrogen used in transportation, power generation, asandndustries.

• LAMEA: As a result of growing demands through industrial use and emerging green exports, LAMEA is beginning to establish itself within the global landscape of hydrogen TIC. Brazil began collaborations with EU institutions regarding feasibility studies for granting permits for TIC-supported safety evaluations in pending partnerships during late 2022. Saudi Arabia’s NEOM green hydrogen project continued beyond 2023 onwards under sponsorships from international TIC corporations. In UAE, mobile inspection pods were launched by SGS at the start of the year to account for increasing project work volumes, which began mid last year. Coupled with Egypt, training programs linked to TIC readiness frameworks aimed towards preparing Morocco for hydrogen exports were instated last quarter. International TIC benchmarks are being adopted urgently within the region to enable access to funding as well as external markets providing lucrative opportunities for investment.

Key Developments

In recent years, the Hydrogen Technology TIC market has experienced several crucial changes as the players in the market strive to grow their geographical footprint and improve their product line and profits by using synergies.

• In April 2025, Bureau Veritas’ role in the NavHyS project will shape liquid hydrogen ship designs by developing new safety standards and vessel classification rules and issuing key Approvals in Principle. Technological breakthroughs needed include compact, cryogenic LH₂ storage systems and robust insulation for maritime conditions. ArianeGroup’s space expertise brings advanced cryogenics and fuel system reliability to ship design. Using LH₂ can significantly reduce maritime CO₂ and NOx emissions. Hydrogen-fueled SOVs could become commercially viable by 2035 with early prototypes expected by 2030.

• In December 2023, Applus+’s acquisition of Barlovento significantly enhanced its capabilities in wind energy through advanced services like wind resource measurement and power curve testing. Barlovento’s strong presence in Europe and Latin America opens new markets and broadens Applus+’s client base. Their proprietary software enables more precise wind assessments, boosting project efficiency. This move strategically aligns with Applus+’s expansion in the renewable energy sector. It also strengthens the Energy & Industry Division with deep technical advisory expertise. Together, they position Applus+ as a top-tier full-service provider in global wind projects.

Companies like SGS, Bureau Veritas, Intertek, and DEKRA are expanding Hydrogen Technology TIC services to meet rising global demand. They’re investing in advanced labs, digital tools, and international certifications. These efforts boost speed, safety, and regulatory compliance. Such moves are reshaping the future of the hydrogen TIC market.

Leading Players

The Hydrogen Technology TIC market is highly competitive, with a large number of product providers globally. Some of the key players in the market include:

• SGS SA
• Bureau Veritas SA
• Intertek Group plc
• DEKRA SE
• TÜV SÜD
• DNV GL
• TÜV Rhineland
• Applus+
• TÜV NORD GROUP
• UL LLC
• Others

These firms apply a sequence of strategies to enter the market, including innovations, mergers and acquisitions, as well as collaboration.

The global Hydrogen Technology TIC (Testing, Inspection, and Certification) market is advancing rapidly, led by key players such as SGS SA, Bureau Veritas SA, Intertek Group plc, and DEKRA SE. These industry giants are playing a crucial role in certifying hydrogen infrastructure, testing electrolyzers and storage systems, and ensuring compliance with evolving global safety standards. SGS has launched specialized hydrogen testing labs in Europe and North America, while Intertek has integrated AI-driven analytics to enhance inspection precision. Bureau Veritas and DEKRA are investing in hydrogen mobility and pipeline safety testing, helping accelerate adoption across energy, transport, and industrial sectors through reliable TIC frameworks.

Regional players are also contributing significantly by aligning with these global leaders. Companies in Asia and Latin America are collaborating with SGS and Bureau Veritas to implement certified hydrogen solutions for local markets. For example, Bureau Veritas has expanded its TIC services in India and the Middle East to support national hydrogen strategies. These regional efforts are supported by customized inspection and fast-track certification programs, allowing emerging economies to adopt hydrogen technologies faster while maintaining international standards.

Specialized applications are driving further diversification of the market, with Intertek and DEKRA working on certification of hydrogen-powered drones, confined system inspections, and medical transport solutions. DEKRA’s involvement in automated inspection protocols and Intertek’s hydrogen material compatibility testing for remote environments highlight how the market is moving toward precision-driven, application-specific TIC services. As hydrogen becomes more embedded across sectors, these companies’ ability to innovate while maintaining strict safety and sustainability benchmarks will define their long-term impact on the global hydrogen transition.

The Hydrogen Technology TIC Market is segmented as follows:

By Service Type

• Testing
• Inspection
• Certification

By Testing Type

• Overpressure, Burst, and Flow Testing
• Pressure Cycle, Leakage, and Tightness Testing
• Hydrogen Permeation and Compatibility Testing

By Process

• Generation
• Storage
• Transportation

By Application

• Mobility
• Refining and Chemical
• Energy
• Others

Regional Coverage:

North America

• U.S.
• Canada
• Mexico
• Rest of North America

Europe

• Germany
• France
• U.K.
• Russia
• Italy
• Spain
• Netherlands
• Rest of Europe

Asia Pacific

• China
• Japan
• India
• New Zealand
• Australia
• South Korea
• Taiwan
• Rest of Asia Pacific

The Middle East & Africa

• Saudi Arabia
• UAE
• Egypt
• Kuwait
• South Africa
• Rest of the Middle East & Africa

Latin America

• Brazil
• Argentina
• Rest of Latin America