시장보고서

상품코드

1809748

암호화폐 채굴 시장 : 제공, 알고리즘 유형, 배포 모델, 최종사용자별 - 세계 예측(2025-2030년)

Cryptocurrency Mining Market by Offering, Algorithm Type, Deployment Model, End User - Global Forecast 2025-2030

발행일: 2025년 08월 | 리서치사:

360iResearch | 페이지 정보: 영문 190 Pages | 배송안내 : 1-2일 (영업일 기준)

■ 보고서에 따라 최신 정보로 업데이트하여 보내드립니다. 배송일정은 문의해 주시기 바랍니다.

샘플 요청 목록에 추가

세계의 암호화폐 채굴 시장 규모는 2024년에는 31억 달러에 달하며, 2025년에는 33억 9,000만 달러, CAGR 9.41%로 성장하며, 2030년에는 53억 3,000만 달러에 달할 것으로 예측됩니다.

주요 시장 통계
기준연도 : 2024년	31억 달러
추정연도 : 2025년	33억 9,000만 달러
예측연도 : 2030년	53억 3,000만 달러
CAGR(%)	9.41%

암호화폐 채굴의 급속한 발전과 광범위한 디지털 자산 생태계에서의 전략적 의미에 대한 이해

암호화폐 채굴은 작업증명형 블록체인 네트워크의 중추로 등장하여 트랜잭션을 검증하고 악의적인 행위로부터 분산 원장을 보호하는 데 필요한 컴퓨팅 파워를 제공합니다. 디지털 자산 생태계의 기본 요소로서 채굴 작업은 네트워크의 무결성을 유지하고, 블록 보상과 거래 수수료를 통해 참여에 대한 인센티브를 제공합니다. 초기의 취미적 노력에서 정교한 산업 규모의 농장으로의 진화는 이 분야가 중요한 경제적 의미를 지닌 중요한 인프라 요소로 성숙했음을 반영합니다.

기술 발전과 규제 진화의 역학을 통해 암호화폐 채굴을 재구성하는 주요 변혁적 변화를 살펴봅니다.

차세대 특정 용도의 집적회로가 에너지 효율을 향상시키면서 전례 없는 해싱 파워를 달성하면서 하드웨어 설계의 발전은 채굴의 상황을 크게 변화시켰습니다. 동시에, 필드 프로그래머블 게이트 어레이와 그래픽 처리 장치는 특수한 이용 사례를 가능하게 하고 다양한 장비 옵션의 생태계를 조성하는 틈새 역할을 계속하고 있습니다. 이러한 기술 혁신은 사업자가 투자 주기와 균형을 맞추어야 하는 새로운 성능 벤치마크를 생성합니다.

2025년 미국 관세가 암호화폐 채굴 생태계의 비용 구조와 공급망에 미치는 종합적인 영향에 대한 평가

2025년 초, 수입 채굴 장비와 반도체 부품에 대한 대상 관세가 시행되면서 채굴 사업의 비용 구조에 큰 변화를 가져왔습니다. 특정 용도의 집적회로 및 그래픽 처리 장치 수입에 대한 관세 인상은 거래처 상표 제품 제조업체와 재판매업체에 직접적인 영향을 미쳐 조달 전략을 재평가하고 공급업체를 다양화하도록 유도했습니다.

마이닝의 제공 제품, 알고리즘 유형, 배포 모델, 최종사용자 프로파일에 대한 중요한 세분화 인사이트를 파악할 수 있습니다.

제공별로 보면 고성능 특정 용도용 집적회로가 고부하 해싱 알고리즘을 주도하고 있으며, 특수한 하드웨어가 여전히 채굴 작업의 핵심으로 작용하고 있습니다. 이러한 플래그십 디바이스를 보완하는 중앙처리장치는 유연한 실험적 채굴을 지원하고, 필드 프로그래머블 게이트 어레이는 재구성 가능한 이용 사례를 지원하며, 그래픽 처리 장치는 다양한 네트워크에 다용도한 성능 이점을 제공합니다. 다양한 네트워크에 다용도한 성능 이점을 제공합니다. 각 하드웨어 카테고리는 하이퍼스케일 데이터센터부터 소규모 취미용 장비에 이르기까지 명확한 운영 프로파일을 충족합니다.

아메리카, 유럽-중동 및 아프리카, 아시아태평양 암호화폐 채굴 시장의 전략적 지역적 차이와 시장 성장 촉진요인을 살펴봅니다.

북미와 남미에서는 일부 지역의 잘 구축된 전력망과 풍부한 재생 자원이 저비용 에너지로 수익성을 최적화하려는 대형 채굴 사업자들을 끌어들이고 있습니다. 미국의 일부 주와 캐나다의 일부 주를 포함한 북미의 관할권은 안정적인 규제 환경, 풍력 및 수력 발전에 대한 접근성, 대규모 개발을 지원하는 인프라를 제공합니다. 중남미 국가들은 정치적 리스크와 송전망의 신뢰성이 여전히 주목할 만한 요소이지만, 경쟁력 있는 에너지 요금 체계와 좌초 가스 채굴을 활성화하려는 노력으로 보완적인 허브로 부상하고 있습니다.

암호화폐 채굴 업계의 주요 기업을 형성하는 경쟁 역학 및 전략적 움직임을 살펴봅니다.

칩 아키텍처와 열 관리의 혁신이 중요한 차별화 요소로 부상하면서 하드웨어 벤더 간 경쟁이 치열해지고 있습니다. 주요 장비 공급업체들은 장비당 에너지 소비를 줄이고, 연속 부하에서 하드웨어의 수명을 향상시키기 위해 연구개발에 많은 투자를 하고 있습니다. 동시에, 신흥 제조업체들은 하이퍼스케일 운영과 맞춤형 배포를 위한 소음 감소 및 모듈식 시스템 설계와 같은 틈새 성능 속성에 초점을 맞추었습니다.

업계 리더들이 진화하는 암호화폐 채굴의 과제와 기회를 효과적으로 극복할 수 있는 전략적으로 실행 가능한 권고안

업계 리더들은 재생에너지 발전 사업자와 장기 전력 판매 계약을 체결하고, 태양광발전 어레이, 풍력 터빈, 바이오가스 변환 시스템 등 온사이트 발전 자산에 투자하여 에너지 다변화를 우선시해야 합니다. 이러한 다각적인 접근 방식은 송전망의 불안정성으로부터 경영을 보호할 뿐만 아니라, 환경적 책임감 및 이산화탄소 감축 목표에 대한 이해관계자들의 높아진 기대에 부응합니다.

1차 인터뷰, 2차 데이터 분석, 검증 프로세스를 결합한 종합적인 조사 방법을 통해 신뢰할 수 있는 암호화폐 채굴에 대한 인사이트를 제공

조사 과정은 하드웨어 아키텍처, 운영 모델, 정책 프레임워크에 대한 기초적인 관점을 확립하기 위해 일반에 공개된 기술 논문, 업계 이해관계자의 백서, 규제 당국 신고서, 학술 논문을 철저히 조사하는 것으로 시작되었습니다. 이 탁상 조사를 통해 주요 시장 진출기업과 새로운 기술 테마에 대한 상세한 매핑을 쉽게 할 수 있었습니다.

암호화폐 채굴의 미래 성장과 혁신을 촉진하기 위한 전략적 인퍼터티브와 핵심 연구 결과의 통합.

암호화폐 채굴 부문이 제도화됨에 따라 최첨단 하드웨어, 전문 서비스, 지능형 소프트웨어 프레임워크의 융합은 업무 성과와 가치 창출에 결정적인 변화를 가져오고 있습니다. 수직적으로 연계된 솔루션의 통합은 지속적인 효율성 향상을 위한 중요한 수단으로 부상하고 있으며, 사업자는 칩 제조부터 시설 관리까지 프로세스를 간소화할 수 있습니다.

시장 점유율 분석(2024년)
FPNV 포지셔닝 매트릭스(2024년)
경쟁 분석
- Argo Blockchain PLC
- Hive Blockchain Technologies Ltd.
- Bitbox Ltd.
- BitDeer Group
- Bitfury Group Limited
- Bitmain Technologies Limited
- Canaan Creative Co., Ltd.
- CleanSpark, Inc.
- Core Scientific, Inc.
- DCX POLSKA SP. Z O.O.
- EZ Blockchain
- Greenidge Generation Holdings Inc.
- Hut 8 Mining Corp
- Iris Energy Ltd.
- Kontena cv
- Layer1 Technologies, LLC
- Marathon Digital Holdings, Inc.
- Minerbase
- Power Mining LLC
- Riot Platforms, Inc.
- SBI Crypto Co., Ltd.

제16장 리서치 AI

제17장 리서치 통계

제18장 리서치 컨택

제19장 리서치 기사

제20장 부록

KSA 25.09.25

The Cryptocurrency Mining Market was valued at USD 3.10 billion in 2024 and is projected to grow to USD 3.39 billion in 2025, with a CAGR of 9.41%, reaching USD 5.33 billion by 2030.

KEY MARKET STATISTICS
Base Year [2024]	USD 3.10 billion
Estimated Year [2025]	USD 3.39 billion
Forecast Year [2030]	USD 5.33 billion
CAGR (%)	9.41%

Understanding the Rapid Evolution of Cryptocurrency Mining and Its Strategic Significance in the Broader Digital Asset Ecosystem

Cryptocurrency mining has emerged as the backbone of proof-of-work blockchain networks, providing the computational power required to validate transactions and secure distributed ledgers against malicious activity. As a foundational element of digital asset ecosystems, mining operations underpin network integrity and incentivize participation through block rewards and transaction fees. The evolution from early hobbyist efforts to sophisticated industrial-scale farms reflects the maturation of this space into a critical infrastructure component with significant economic implications.

Over the past decade, mining has transitioned from CPU-based experiments to specialized hardware architectures such as application-specific integrated circuits and tightly optimized graphics processing units. This shift has been driven by escalating network difficulty levels, which demand ever-higher performance per watt to sustain profitability. In parallel, energy consumption concerns and debates over environmental impact have spurred innovation in power sourcing strategies and cooling technologies.

Institutional interest has surged as global financial players recognize mining's potential to generate returns and contribute to portfolio diversification. Simultaneously, volatility in cryptocurrency valuations and shifting policy frameworks have introduced new risk factors that operators must navigate. Crucial drivers of mining viability now include access to low-cost electricity, hardware lifecycle management, and regulatory clarity.

Together, these dynamics establish a complex operating environment where technological advancement, sustainability considerations, and governance policies converge. Against this backdrop, stakeholders require a comprehensive understanding of evolving market forces to inform strategic planning and capitalize on emerging opportunities.

Examining the Key Transformative Shifts Reshaping Cryptocurrency Mining Through Technological Advances and Regulatory Evolution Dynamics

Advancements in hardware design have significantly altered the mining landscape as next-generation application-specific integrated circuits deliver unprecedented hashing power while improving energy efficiency. Simultaneously, field-programmable gate arrays and graphics processing units continue to play niche roles, enabling specialized use cases and fostering an ecosystem of diversified equipment options. These technological innovations create new performance benchmarks that operators must balance against investment cycles.

Energy sourcing has become a strategic focus as progressively higher power demands elevate operational costs and environmental scrutiny. In response, many mining facilities are integrating renewable power through direct partnerships with solar, wind, and hydroelectric providers, as well as exploring stranded gas utilization projects. This shift not only reduces carbon footprints but also mitigates exposure to conventional energy price volatility.

Regulatory frameworks are evolving in tandem with industry growth, with some jurisdictions introducing licensing regimes and environmental standards that seek to formalize mining activity. At the same time, a number of regions are offering incentives such as tax credits and preferential grid access to attract investment. Operators must therefore remain agile, adapting to compliance requirements that can vary widely across borders.

Concurrent consolidation trends have seen mergers and strategic alliances emerge as pathways to achieve scale economics and secure hardware supply allocations. The rise of professional hosting services and consulting firms further modularizes mining operations, allowing new entrants to access turnkey capabilities rather than developing in-house infrastructure from scratch.

Moreover, shifting models of network participation ranging from decentralized peer-to-peer pools to centrally managed consortium mining are redefining notions of decentralization and collective governance. As these elements coalesce, the industry is poised to undergo additional structural realignment in pursuit of resilience and efficiency.

Assessing the Comprehensive Effects of United States Tariffs in 2025 on Cryptocurrency Mining Ecosystem Cost Structures and Supply Chains

In early 2025, the implementation of targeted duties on imported mining equipment and semiconductor components introduced a significant shift in cost structures for mining operations. Incremental tariffs on application-specific integrated circuits and graphics processing unit imports have directly affected original equipment manufacturers and resellers, prompting a reevaluation of procurement strategies and vendor diversification.

These new levies have translated into higher capital expenditures for both large-scale facilities and individual miners. Manufacturers dependent on cross-border supply chains have responded by relocating assembly plants and forging partnerships with non-US fabrication centers to alleviate tariff burdens. At the same time, extended lead times and compliance documentation requirements have introduced additional logistical complexities, inflating operational overheads beyond basic material costs.

Mining operators are adapting through a combination of cost pass-through models and strategic inventory management, aiming to preserve margin cushions while maintaining rig utilization rates. Some have increased reliance on hosting services that can leverage economies of scale to absorb higher import charges, whereas others are negotiating long-term power purchase agreements to offset incremental tariff expenses with predictable energy outlays.

In the medium term, these measures may accelerate discussions around reshoring critical hardware manufacturing and catalyze localized chip production initiatives supported by government incentives. Trade policy dialogues are also likely to intensify at global forums as stakeholders advocate for harmonized standards and dispute resolution mechanisms.

Ultimately, the cumulative impact of these duties extends beyond immediate cost inflation, driving strategic recalibrations in supply chain configurations and encouraging industry participants to pursue innovative sourcing models that can withstand geopolitical headwinds.

Unveiling Critical Segmentation Insights Across Offerings, Algorithm Types, Deployment Models, and End User Profiles in Mining

Within the realm of offerings, specialized hardware remains the cornerstone of mining operations, with high-performance application-specific integrated circuits leading for high-intensity hash algorithms. Complementing these flagship devices, central processing units cater to flexible experimental mining, field-programmable gate arrays support reconfigurable use cases, and graphics processing units provide versatile performance advantages for a range of networks. Each hardware category satisfies distinct operational profiles, from hyperscale data centers to small-scale hobbyist rigs.

Services have evolved into a critical layer of support, with consulting and maintenance offerings delivering expert guidance on facility design, equipment installation, and lifecycle management. Concurrently, hosting services furnish turnkey solutions that encompass site selection, power procurement, and 24/7 monitoring, enabling clients to outsource technical complexities and focus on strategic planning rather than day-to-day operations.

Software capabilities form the nexus between hardware and operational efficiency, highlighted by mining operating systems that streamline rig configuration, monitor performance metrics, and orchestrate firmware updates. Optimization software further refines outcomes through algorithmic adjustments to voltage, clock speeds, and fan controls, driving incremental gains in hash rate while controlling energy consumption.

When viewed through the lens of algorithm types, memory-intensive Ethash networks demand substantial RAM allocation and motherboard throughput, whereas Scrypt-based cryptocurrencies emphasize parallel processing with reduced power draw. Meanwhile, SHA-256 remains the dominant standard for primary networks, benefiting from decades of hardware optimization and supplier competition.

Deployment models present a strategic choice between cloud mining platforms, which lower entry barriers through rental structures and remote access, and on-premises installations that confer full asset control and customization flexibility. These models unlock differentiated value propositions based on capital availability and risk appetite.

End users span commercial entities, including institutional asset managers and energy conglomerates pursuing scale, as well as individuals seeking passive income streams or network participation. This dual-tier user ecosystem shapes product roadmaps and service offerings, ensuring that emerging solutions address both enterprise requirements for robustness and individual preferences for simplicity and cost efficiency.

The interplay among these segmentation dimensions reveals nuanced value chains and highlights the importance of integrated solution suites. Providers that can harmonize hardware performance with tailored services and sophisticated software will be best positioned to capture diverse market segments and drive sustained adoption across the mining landscape.

Exploring Strategic Regional Variations and Growth Drivers Across Americas, EMEA, and Asia Pacific Cryptocurrency Mining Markets

Within the Americas, established power grids and abundant renewable resources in select regions have attracted leading mining operators seeking to optimize profitability through low-cost energy. North American jurisdictions, including certain US states and provinces in Canada, offer stable regulatory environments, access to wind and hydroelectric capacity, and infrastructure that supports large-scale deployments. Latin American countries are emerging as complementary hubs, driven by competitive energy tariffs and efforts to activate stranded gas for mining, although political risk and grid reliability remain factors to monitor.

The Europe, Middle East & Africa region exhibits a multifaceted profile, with Western European nations enforcing rigorous environmental standards that elevate operational compliance but also incentivize the adoption of cleaner energy sources. Concurrently, emerging markets in Eastern Europe benefit from lower electricity costs and proximity to technology manufacturing centers. In the Middle East, initiatives to diversify hydrocarbon economies have prompted pilot projects integrating solar energy with mining facilities, while Africa's evolving infrastructure landscape presents both opportunities in untapped locations and challenges in distribution and regulatory consistency.

Asia-Pacific continues to command a central role in the global mining ecosystem due to its concentration of component fabrication, assembly expertise, and expansive grid capacities in countries such as China, Taiwan, South Korea, and Kazakhstan. Regulatory developments in Australia and select Southeast Asian nations are further shaping mining economics by balancing resource export models with incentives for domestic value creation. Ongoing policy deliberations across APAC, including carbon pricing mechanisms and foreign investment regulations, will continue to influence global hash rate distribution.

Cross-regional collaboration is increasingly evident as operators pursue joint ventures that leverage complementary strengths-combining North American renewable potential with APAC manufacturing prowess or integrating EMEA regulatory frameworks with African energy arbitrage. Such alliances underscore a future where strategic partnerships and technology transfer will determine the next wave of regional and global expansion initiatives within the mining sector.

Delving into Competitive Dynamics and Strategic Moves Shaping the Cryptocurrency Mining Industry Leading Companies

Competition among hardware vendors has intensified as breakthroughs in chip architecture and thermal management become critical differentiators. Leading equipment suppliers invest heavily in research and development to reduce per-unit energy consumption and improve hardware longevity under continuous load. At the same time, emerging manufacturers focus on niche performance attributes such as noise reduction and modular system designs that cater to both hyperscale operations and bespoke deployments.

Service providers have likewise elevated their offerings to capture value beyond core mining activities. Integrated hosting solutions now incorporate advanced cooling innovations, including immersion and liquid cooling systems, alongside predictive analytics that anticipate component failures. Consulting firms have broadened their scope to include regulatory advisory services, helping clients navigate licensing applications, environmental assessments, and cross-border compliance.

On the software side, vendors and open-source communities are driving rapid iteration cycles, with new releases featuring machine learning-driven optimization tools that adapt hash parameters in real time to fluctuating network conditions. Ecosystem participants collaborate on shared protocol improvements that aim to standardize performance metrics and interoperability frameworks, facilitating a more unified orchestration environment across diverse hardware fleets.

Strategic partnerships and investment influxes are shaping market concentration, as larger players secure exclusive supply agreements with foundries and infrastructure developers partner with energy conglomerates to establish captive power plants. Private equity and venture capital interest in this space underscores the sector's growth potential, with funding rounds aimed at scaling operations, accelerating innovation, and exploring adjacent use cases such as edge computing and distributed storage.

Looking ahead, companies with the agility to integrate cross-functional capabilities-combining hardware excellence, service reliability, and software sophistication-will be best positioned to command market leadership and deliver compelling value propositions to a broadening roster of stakeholders.

Strategic Actionable Recommendations Empowering Industry Leaders to Navigate Evolving Cryptocurrency Mining Challenges and Opportunities Effectively

Industry leaders should prioritize energy diversification by entering into long-term power purchase agreements with renewable generators and investing in on-site generation assets such as photovoltaic arrays, wind turbines, and biogas conversion systems. This multifaceted approach not only insulates operations from grid volatility but also aligns with growing stakeholder expectations around environmental stewardship and carbon reduction goals.

Vertical integration represents another critical lever for enhancing competitiveness. By consolidating roles across hardware procurement, facility construction, and software development, organizations can internalize value creation, exercise tighter quality control, and respond more swiftly to technological shifts. This holistic model fosters end-to-end process optimization and enhances negotiating power with component suppliers.

Adoption of modular, containerized mining units offers a flexible deployment model that supports rapid capacity adjustments in response to market cycles and regulatory changes. These self-contained systems can be relocated or scaled in line with strategic objectives, reducing lead times and minimizing the risk associated with fixed-asset commitments.

Robust risk management frameworks should encompass geopolitical, regulatory, operational, and cybersecurity dimensions. Proactive scenario analysis, insurance mechanisms, and incident response plans will equip organizations to withstand disruptions and maintain operational continuity under adverse conditions.

Collaborative research initiatives involving academic institutions, industry consortia, and technology partners can accelerate breakthroughs in cooling methods, energy storage integration, and algorithm enhancement. Collective efforts to develop standardized performance benchmarks and interoperability protocols will raise overall industry efficiency and trust.

Companies should also engage in transparent environmental, social, and governance reporting to strengthen relationships with regulators, investors, and community stakeholders. Active participation in standard-setting bodies will enable thought leadership and help shape favorable policy outcomes.

Finally, exploring alternative consensus mechanisms beyond proof-of-work such as proof-of-stake hybrids and carbon-aware protocols can position early adopters at the forefront of next-generation blockchain validation, unlocking new revenue models and sustainability synergies.

Comprehensive Research Methodology Combining Primary Interviews, Secondary Data Analysis, and Validation Processes Ensuring Reliable Cryptocurrency Mining Insights

The research process began with an exhaustive review of publicly available technical papers, white papers from industry stakeholders, regulatory filings, and academic articles to establish a foundational perspective on hardware architectures, operational models, and policy frameworks. This desk research facilitated a detailed mapping of key market participants and emerging technology themes.

Secondary data analysis incorporated manufacturer specifications, energy consumption datasets, grid pricing reports, and anonymized performance metrics sourced from operating facilities. These inputs were synthesized to generate quantitative baselines for equipment efficiency, power usage effectiveness, and cost-to-hash calculations without engaging in market sizing or forecasting.

Primary interviews were conducted with a cross-section of professionals, including senior executives at leading mining equipment producers, facility operators, power utility specialists, regulatory advisors, and software developers. These one-on-one discussions yielded qualitative insights into strategic priorities, pain points, and innovation roadmaps.

All data underwent rigorous validation through triangulation with independent sources, ensuring consistency and reliability of findings. Discrepancies were addressed via follow-up inquiries and consensus building among multiple interviewees. Data normalization techniques were applied to harmonize metrics across different reporting standards.

Confidentiality agreements with interview participants and strict adherence to ethical research protocols safeguarded proprietary information. The methodology acknowledges limitations inherent to rapidly evolving technology sectors and recommends periodic updates to capture ongoing developments.

Finally, an iterative process of continuous market monitoring was employed, tracking patent filings, regulatory changes, and industry announcements. This ongoing surveillance ensures that the analysis remains current and relevant, providing a robust foundation for strategic decision-making.

Synthesizing Core Findings with Strategic Imperatives to Fuel Future Growth and Innovation in Cryptocurrency Mining

As the cryptocurrency mining sector advances toward greater institutionalization, the convergence of cutting-edge hardware, specialized services, and intelligent software frameworks is decisively reshaping operational performance and value creation. The integration of vertically aligned solutions has emerged as a key enabler of sustained efficiency gains, allowing operators to streamline processes from chip fabrication through facility management.

The introduction of targeted import duties in major markets during 2025 and the corresponding recalibrations in global trade policies have underscored the importance of supply chain resilience. Mining entities are increasingly diversifying manufacturing partnerships and exploring localized production models to mitigate exposure to geopolitical tensions.

Segmentation analysis highlights the need for differentiated strategies across offering types, algorithm preferences, deployment models, and end user cohorts. Organizations that align product portfolios and service offerings with the specific demands of commercial scale operators or individual participants will be better positioned to capture discrete opportunity sets.

Regional variations in energy availability, regulatory receptivity, and infrastructure maturity necessitate tailored approaches to market entry and expansion. Operators leveraging synergistic partnerships between geographically complementary jurisdictions can optimize resource allocation and drive cross-border growth.

Competitive dynamics are driven by strategic investments in R&D, collaborative consortium efforts, and the pursuit of alternative validation mechanisms that balance security, performance, and environmental impact. Participants that embrace innovation and foster transparent stakeholder engagement will establish leadership positions.

In sum, the path forward requires a cohesive blend of technological foresight, regulatory adaptability, and strategic collaboration. Stakeholders that implement rigorous, research-driven frameworks and maintain agility in response to evolving conditions will thrive in the next chapter of cryptocurrency mining.

1. Preface

1.1. Objectives of the Study
1.2. Market Segmentation & Coverage
1.3. Years Considered for the Study
1.4. Currency & Pricing
1.5. Language
1.6. Stakeholders

2. Research Methodology

2.1. Define: Research Objective
2.2. Determine: Research Design
2.3. Prepare: Research Instrument
2.4. Collect: Data Source
2.5. Analyze: Data Interpretation
2.6. Formulate: Data Verification
2.7. Publish: Research Report
2.8. Repeat: Report Update

3. Executive Summary

4. Market Overview

4.1. Introduction
4.2. Market Sizing & Forecasting

5. Market Dynamics

5.1. Advancements in mining hardware efficiency through custom ASIC and GPU designs
5.2. Shift toward decentralized mining pools to improve network security and fairness
5.3. Impact of rising energy costs on large-scale cryptocurrency mining profitability
5.4. Emergence of renewable energy solutions for powering Bitcoin and Ethereum miners
5.5. Regulatory crackdowns in major jurisdictions reshaping global mining operations
5.6. Integration of waste heat recovery systems in industrial cryptocurrency farms
5.7. Increasing institutional participation driving demand for professional mining infrastructure

6. Market Insights

6.1. Porter's Five Forces Analysis
6.2. PESTLE Analysis

7. Cumulative Impact of United States Tariffs 2025

8. Cryptocurrency Mining Market, by Offering

8.1. Introduction
8.2. Hardware
- 8.2.1. Application-Specific Integrated Circuits
- 8.2.2. Central Processing Unit
- 8.2.3. Field-Programmable Gate Array
- 8.2.4. Graphics Processing Units
8.3. Services
- 8.3.1. Consulting & Maintenance Services
- 8.3.2. Hosting Services
8.4. Software
- 8.4.1. Mining OS
- 8.4.2. Optimization Software

9. Cryptocurrency Mining Market, by Algorithm Type

9.1. Introduction
9.2. Ethash
9.3. Scrypt
9.4. SHA-256

10. Cryptocurrency Mining Market, by Deployment Model

10.1. Introduction
10.2. Cloud Mining
10.3. On Premises

11. Cryptocurrency Mining Market, by End User

11.1. Introduction
11.2. Commercial
11.3. Individual

12. Americas Cryptocurrency Mining Market

12.1. Introduction
12.2. United States
12.3. Canada
12.4. Mexico
12.5. Brazil
12.6. Argentina

13. Europe, Middle East & Africa Cryptocurrency Mining Market

13.1. Introduction
13.2. United Kingdom
13.3. Germany
13.4. France
13.5. Russia
13.6. Italy
13.7. Spain
13.8. United Arab Emirates
13.9. Saudi Arabia
13.10. South Africa
13.11. Denmark
13.12. Netherlands
13.13. Qatar
13.14. Finland
13.15. Sweden
13.16. Nigeria
13.17. Egypt
13.18. Turkey
13.19. Israel
13.20. Norway
13.21. Poland
13.22. Switzerland

14. Asia-Pacific Cryptocurrency Mining Market

14.1. Introduction
14.2. China
14.3. India
14.4. Japan
14.5. Australia
14.6. South Korea
14.7. Indonesia
14.8. Thailand
14.9. Philippines
14.10. Malaysia
14.11. Singapore
14.12. Vietnam
14.13. Taiwan

15. Competitive Landscape

15.1. Market Share Analysis, 2024
15.2. FPNV Positioning Matrix, 2024
15.3. Competitive Analysis
- 15.3.1. Argo Blockchain PLC
- 15.3.2. Hive Blockchain Technologies Ltd.
- 15.3.3. Bitbox Ltd.
- 15.3.4. BitDeer Group
- 15.3.5. Bitfury Group Limited
- 15.3.6. Bitmain Technologies Limited
- 15.3.7. Canaan Creative Co., Ltd.
- 15.3.8. CleanSpark, Inc.
- 15.3.9. Core Scientific, Inc.
- 15.3.10. DCX POLSKA SP. Z O.O.
- 15.3.11. EZ Blockchain
- 15.3.12. Greenidge Generation Holdings Inc.
- 15.3.13. Hut 8 Mining Corp
- 15.3.14. Iris Energy Ltd.
- 15.3.15. Kontena cv
- 15.3.16. Layer1 Technologies, LLC
- 15.3.17. Marathon Digital Holdings, Inc.
- 15.3.18. Minerbase
- 15.3.19. Power Mining LLC
- 15.3.20. Riot Platforms, Inc.
- 15.3.21. SBI Crypto Co., Ltd.

암호화폐 채굴 시장 : 제공, 알고리즘 유형, 배포 모델, 최종사용자별 - 세계 예측(2025-2030년)

Cryptocurrency Mining Market by Offering, Algorithm Type, Deployment Model, End User - Global Forecast 2025-2030

암호화폐 채굴의 급속한 발전과 광범위한 디지털 자산 생태계에서의 전략적 의미에 대한 이해

기술 발전과 규제 진화의 역학을 통해 암호화폐 채굴을 재구성하는 주요 변혁적 변화를 살펴봅니다.

2025년 미국 관세가 암호화폐 채굴 생태계의 비용 구조와 공급망에 미치는 종합적인 영향에 대한 평가

마이닝의 제공 제품, 알고리즘 유형, 배포 모델, 최종사용자 프로파일에 대한 중요한 세분화 인사이트를 파악할 수 있습니다.

아메리카, 유럽-중동 및 아프리카, 아시아태평양 암호화폐 채굴 시장의 전략적 지역적 차이와 시장 성장 촉진요인을 살펴봅니다.

암호화폐 채굴 업계의 주요 기업을 형성하는 경쟁 역학 및 전략적 움직임을 살펴봅니다.

업계 리더들이 진화하는 암호화폐 채굴의 과제와 기회를 효과적으로 극복할 수 있는 전략적으로 실행 가능한 권고안

1차 인터뷰, 2차 데이터 분석, 검증 프로세스를 결합한 종합적인 조사 방법을 통해 신뢰할 수 있는 암호화폐 채굴에 대한 인사이트를 제공

암호화폐 채굴의 미래 성장과 혁신을 촉진하기 위한 전략적 인퍼터티브와 핵심 연구 결과의 통합.

목차

제1장 서문

제2장 조사 방법

제3장 개요

제4장 시장 개요

제5장 시장 역학

제6장 시장 인사이트

제7장 미국 관세의 누적 영향 2025

제8장 암호화폐 채굴 시장 : 제공별

제9장 암호화폐 채굴 시장 : 알고리즘 유형별

제10장 암호화폐 채굴 시장 : 배포 모델별

제11장 암호화폐 채굴 시장 : 최종사용자별

제12장 아메리카의 암호화폐 채굴 시장

제13장 유럽, 중동 및 아프리카의 암호화폐 채굴 시장

제14장 아시아태평양의 암호화폐 채굴 시장

제15장 경쟁 구도