量子暗号およびネットワークの世界市場規模、機会分析＆予測 2024-2031年

世界の量子暗号および量子ネットワーク市場はデジタル化時代におけるサイバーセキュリティ攻撃インシデントの増加によって牽引され、2024年から2031年の予測期間に年平均成長率（CAGR）34.64%の堅調な市場成長を遂げ、2031年までに81億4000万米ドルに達するとAstute Analyticaでは予測しています。

「世界の量子暗号およびネットワーク市場 – Global Quantum Cryptography & Network Market」は世界の量子暗号と量子ネットワーク市場を調査し、主要セグメント別に分析・予測したAstute Analytica（アステュートアナリティカ）の市場調査報告書です。

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Report Overview

Global Quantum Cryptography & Network Market: Driven by Growing cyber-security attack incidents in the era of digitalization, Forecast to Reach US$ 8.14 Billion by 2031 with a robust CAGR of 34.64% over the forecast period 2024–2031.

Introduction

The Global Quantum Cryptography & Network Market is on a strong growth trajectory, valued at US$ 0.83 billion in 2023, and projected to achieve a CAGR of 34.64% from 2024 to 2031. This market is set for significant expansion due to the increasing demand for secure communication technologies in a highly interconnected environment. Quantum cryptography, which utilizes the principles of quantum mechanics, provides unparalleled security features that traditional encryption methods cannot offer. By implementing Quantum Key Distribution (QKD), this technology makes eavesdropping attempts detectable, making it essential for transmitting sensitive data in critical sectors such as finance, healthcare, and national security. As cyber threats evolve, organizations are actively seeking innovative solutions to safeguard their information from breaches. The market is witnessing substantial investments from both public and private sectors, coupled with numerous research initiatives focused on developing advanced quantum communication systems. Additionally, growing government support for quantum technologies and rising awareness of their applications are further propelling market growth. Key industry players are engaging in strategic collaborations, mergers, and partnerships to enhance their technological capabilities, indicating a robust future for the Global Quantum Cryptography & Network Market.

Drivers of Growth

In today’s rapidly digitizing environment, India faces significant challenges related to its cybersecurity and data privacy infrastructure. The transition to virtual platforms in sectors such as healthcare, banking, education, and small and medium enterprises (SMEs) has expanded their capabilities but also increased exposure to cyber threats. Reports from CERT-In indicate a staggering 292% rise in cyberattacks in India between 2017 and 2018. The Indian cybersecurity market is expected to grow at a rate surpassing the global average, as highlighted in the “What Lies Beneath” report by PwC and DSCI. The growing adoption of cloud services necessitates robust data security measures to safeguard both data storage and connected devices. Additionally, the focus on data analytics and big data to drive automation, along with the integration of emerging technologies like AI and ML, highlights the urgent need for a solid cybersecurity framework. Quantum cryptography presents a promising solution to protect communications from potential quantum threats. By utilizing Quantum Key Distribution (QKD), it enables the generation of longer symmetric keys, thereby enhancing security for IoT devices and ensuring a resilient cybersecurity ecosystem for the future.

Segment Overview

The Solutions segment is at the forefront of the quantum cryptography market and is anticipated to experience the highest growth rate. The advancement of quantum computing, which necessitates quantum cryptography, is driving technological progress across multiple industries. Quantum networks require effective solutions for the transmission of quantum information between connected nodes. Additionally, the increase in cyberattacks—prompted by digital transformation, investments in cybersecurity, the need for next-generation cloud and IoT security, and improvements in wireless technologies—contributes to market expansion. The Services segment, particularly Quantum Key Distribution (QKD) as a Service (QaaS), is also expected to see substantial growth, enabling multiple users to securely access quantum keys from a shared QKD infrastructure, thereby increasing demand for quantum cryptography solutions across various sectors.

Network and Application Security are predominant in the quantum cryptography market, with Network Security commanding over 65% of the market share in 2023 and expected to grow at a faster rate. Network Security is crucial for safeguarding corporate infrastructures by preventing threats from infiltrating or spreading within networks. It combines hardware and software solutions, making it essential for sectors like healthcare, banking, finance, defense, and retail. The contribution of quantum cryptography to data security is further fueling this segment’s growth. Application Security, which focuses on protecting software applications and their data from cyber threats, is projected to grow at the highest CAGR due to the rising demand for secure application development.

The market comprises segments like Quantum Key Distribution (QKD), Quantum Teleportation, and others. In 2023, QKD accounted for approximately 65% of the revenue, reflecting its increasing implementation in real-world scenarios to mitigate threats posed by quantum computers. QKD provides secure key distribution with unbreakable encryption, ensuring strong protection against breaches. It facilitates secure information exchange via classical channels using quantum keys. Although Quantum Teleportation, which involves transmitting quantum states, has shown long-range viability, QKD remains the most practical and widely used solution for bolstering security in quantum communications, particularly in sectors requiring robust data protection.

Symmetric cryptography accounted for over 70% of the market share in 2023 and is projected to grow faster than asymmetric encryption. It is favored for its speed and efficiency, especially for bulk data encryption in databases, as it utilizes shorter keys compared to asymmetric methods, resulting in quicker encryption and decryption processes. While asymmetric cryptography offers enhanced security through public and private key pairs, it operates more slowly. Symmetric encryption is preferred for its performance benefits, whereas asymmetric methods provide additional security for applications that require heightened protection, effectively balancing speed and security across various use cases.

In 2023, the Triple Data Encryption Standard (DES) led the market with over 40% revenue share, while the Advanced Encryption Standard (AES) is expected to experience faster growth. Triple DES, an improved iteration of the older DES algorithm, employs a 56-bit key for data encryption. In contrast, AES was developed as a faster alternative, being six times quicker than Triple DES and widely utilized for both hardware and software encryption. AES’s adaptability in key length allows for greater security and resilience against future cryptographic advancements. The RSA algorithm, an asymmetric encryption standard, continues to be a benchmark for securing internet data, further driving the demand for reliable encryption algorithms.

Large Enterprises dominated the quantum cryptography market with more than 70% of the revenue share in 2023, while Small and Medium Enterprises (SMEs) are expected to grow at a higher CAGR. Large enterprises utilize quantum cryptography for secure communications, digital certificates, and data encryption to protect sensitive information across various applications. Meanwhile, SMEs are increasingly adopting quantum cryptography in response to rising industry demands, government investments in quantum research, and collaborations with larger firms. Furthermore, private venture funding, new research initiatives, and partnerships between quantum cryptography companies and industries are driving growth in SMEs, fostering innovation and advancement in quantum technologies across different sectors.

Globally, organizations are increasingly embracing quantum cryptography solutions to bolster network and application security, particularly within the government and BFSI sectors. In 2023, the BFSI segment represented over 20% of market revenue and is projected to witness the highest CAGR in the upcoming years. This demand arises from the financial sector’s management of vast amounts of sensitive data, including Personally Identifiable Information (PII), making it a key target for cybercriminals. Quantum Key Distribution (QKD) utilizes quantum mechanics to secure communications and transactions, fulfilling crucial security needs such as authentication, confidentiality, and integrity. Concurrently, governments are investing in quantum cryptography for secure communications, acknowledging its potential amid rising cyber threats, which drives the need for robust data protection solutions.

Regional Insights

The global quantum cryptography and network market is expected to be primarily driven by North America, where the rise in cyber-attacks, increasing emphasis on cybersecurity, and substantial investments in data privacy are significant factors. The presence of leading quantum cryptography vendors in the region enhances market growth, along with favorable government regulations supporting data security, especially in the United States. In contrast, the Asia-Pacific region is also set for robust growth, supported by technological advancements in countries like China and India, as well as a surge in research initiatives and strategic mergers. As the need for secure communication rises worldwide, quantum cryptography is essential for protecting data transmission. In Europe, the rise in data breaches has led to new regulations, such as the General Data Protection Regulation (GDPR), compelling governments to adopt enhanced data security measures and fueling the demand for quantum cryptography solutions to shield sensitive information from cyber threats.

Competitive Landscape

The Global Quantum Cryptography & Network market is characterized by a vigorous competitive landscape, with prominent entities IBM Corporation, Toshiba, Google, D-wave, Microsoft, Intel among Others at the forefront, collectively accounting for more than 35% of the overall market share. This competitive milieu is fueled by their intensive efforts in research and development as well as strategic partnerships and collaborations, underscoring their commitment to solidifying market presence and diversifying their offerings. The primary competitive factors include pricing, product caliber, and technological innovation. As the Global Quantum Cryptography & Network industry continues to expand, the competitive fervor among these key players is anticipated to intensify. The impetus for ongoing innovation and alignment with evolving customer preferences and stringent regulations is high. The industry’s fluidity anticipates an uptick in novel innovations and strategic growth tactics from these leading corporations, which in turn propels the sector’s comprehensive growth and transformation.

Conclusion

In the era of rapid digitization, India faces significant challenges in cybersecurity and data privacy infrastructure. The shift to virtual platforms due to the pandemic has exposed sectors like health, banking, finance, education, and SMEs/MSMEs to increased cyber risks. Cyberattacks in India surged by 292% between 2017 and 2018, per the CERT-In report. The Indian cybersecurity market is projected to grow at a faster rate than global cybersecurity spending, driven by rising cloud adoption, data analytics, and automation. Cloud services require robust security systems, while the increasing focus on AI, ML, and IoT has amplified the need for data protection and privacy. Quantum cryptography is emerging as a critical solution, ensuring secure communication by leveraging quantum key distribution (QKD). It’s seen as essential for protecting against quantum-level cyber threats. The market is witnessing strong growth in both solutions and services, particularly with QaaS (Quantum Key Distribution as a Service) gaining traction. Network security holds the largest market share, driven by sectors like BFSI and healthcare, while application security is projected to grow rapidly. Furthermore, symmetric encryption, led by Triple DES and AES, is preferred for its speed and efficiency, with large enterprises dominating the market, although SMEs are expected to grow at a higher rate.

Segmentation Overview

The various segments of the Global Quantum Cryptography & Network market are:

By Component, the Global Quantum Cryptography & Network market is segmented into:

• Solutions
• Services
  • Consulting and advisory
  • Deployment and integration
  • Support and maintenance

By Security Type, the Global Quantum Cryptography & Network market is segmented into:

• HoNetwork security
• Application security

By Network Type, the Global Quantum Cryptography & Network market is segmented into:

• Quantum Key Distribution
• Quantum Teleportation
• Others

By Cryptography Encryption Types, the Global Quantum Cryptography & Network market is segmented into:

• Symmetric
• Asymmetric

By Cryptography Encryption Algorithms, the Global Quantum Cryptography & Network market is segmented into:

• Triple Data Encryption Standard (DES)
• RSA Encryption
• Advanced Encryption Standards (AES)
• Hash algorithm

By Enterprise Size, the Global Quantum Cryptography & Network market is segmented into:

• Small and Medium Enterprises
• Large Enterprises

By End User, the Global Quantum Cryptography & Network market is segmented into:

• BFSI
• IT and Telecom
• Retail
• Media and Entertainment
• Government and Public Sector
• Manufacturing
• Healthcare
• Others

By Region, the Global Quantum Cryptography & Network market is segmented into:

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

Table of Contents

Chapter 1.              Research Framework

1.1.          Research Objective

1.2.          Product Overview

1.3.          Market Segmentation

Chapter 2.              Research Methodology

2.1.          Qualitative Research

2.1.1.       Primary & Secondary Sources

2.2.          Quantitative Research

2.2.1.       Primary & Secondary Sources

2.3.          Breakdown of Primary Research Respondents, By Region

2.4.          Assumption for the Study

2.5.          Market Size Estimation

2.6.          Data Triangulation

Chapter 3.              Executive Summary: Global Quantum Cryptography & Network Market

Chapter 4.              Global Quantum Cryptography & Network Market Overview

4.1.          Industry Value Chain Analysis

4.1.1.       Software Developer

4.1.2.       Integrator

4.1.3.       Service Provider

4.1.4.       End User

4.2.          Industry Outlook

4.2.1.       Quantum Cryptography and Quantum Key Distribution (QKD) Network Overview

4.2.2.       Recent Development in Quantum Key Distribution (QKD) Network Deployment and Standards

4.2.3.       Post-Quantum Cryptography (PQC): Overview

4.2.4.       Quantum Cryptography/Encryption Vs. Post Quantum Cryptography

4.3.          PESTEL Analysis

4.4.          Porter’s Five Forces Analysis

4.4.1.       Bargaining Power of Suppliers

4.4.2.       Bargaining Power of Buyers

4.4.3.       Threat of Substitutes

4.4.4.       Threat of New Entrants

4.4.5.       Degree of Competition

4.5.          Market Dynamics and Trends

4.5.1.       Growth Drivers

4.5.2.       Restraints

4.5.3.       Challenges

4.5.4.       Key Trends

4.6.          Covid-19 Impact Assessment on Market Growth Trend

4.7.          Market Growth and Outlook

4.7.1.       Market Revenue Estimates and Forecast (US$ Mn), 2018 – 2031

4.8.          Competition Dashboard

4.8.1.       Market Concentration Rate

4.8.2.       Company Market Share Analysis (Value %), 2022

Chapter 5.              Global Quantum Cryptography & Network Market Analysis, By Component

5.1.          Key Insights

5.2.          Market Size and Forecast, 2018 – 2031 (US$ Mn)

5.2.1.       Solutions

5.2.2.       Services

5.2.2.1.   Consulting and advisory

5.2.2.2.   Deployment and integration

5.2.2.3.   Support and maintenance

Chapter 6.              Global Quantum Cryptography & Network Market Analysis, By Security Type

6.1.          Key Insights

6.2.          Market Size and Forecast, 2018 – 2031 (US$ Mn)

6.2.1.       Network security

6.2.2.       Application security

Chapter 7.              Global Quantum Cryptography & Network Market Analysis, By Network Type

7.1.          Key Insights

7.2.          Market Size and Forecast, 2018 – 2031 (US$ Mn)

7.2.1.       Quantum Key Distribution

7.2.2.       Quantum Teleportation

7.2.3.       Others

Chapter 8.              Global Quantum Cryptography & Network Market Analysis, By Cryptography Encryption Types

8.1.          Key Insights

8.2.          Market Size and Forecast, 2018 – 2031 (US$ Mn)

8.2.1.       Symmetric

8.2.2.       Asymmetric

Chapter 9.              Global Quantum Cryptography & Network Market Analysis, By Cryptography Encryption Algorithms

9.1.          Key Insights

9.2.          Market Size and Forecast, 2018 – 2031 (US$ Mn)

9.2.1.       Triple Data Encryption Standard (DES)

9.2.2.       RSA Encryption

9.2.3.       Advanced Encryption Standards (AES)

9.2.4.       Hash algorithm

Chapter 10.            Global Quantum Cryptography & Network Market Analysis, By Enterprise Size

10.1.        Key Insights

10.2.        Market Size and Forecast, 2018 – 2031 (US$ Mn)

10.2.1.    Small and Medium Enterprises

10.2.2.    Large Enterprises

Chapter 11.            Global Quantum Cryptography & Network Market Analysis, By End User

11.1.        Key Insights

11.2.        Market Size and Forecast, 2018 – 2031 (US$ Mn)

11.2.1.    BFSI

11.2.2.    IT and Telecom

11.2.3.    Retail

11.2.4.    Media and Entertainment

11.2.5.    Government and Public Sector

11.2.6.    Manufacturing

11.2.7.    Healthcare

11.2.8.    Others

Chapter 12.            Global Quantum Cryptography & Network Market Analysis, By Region

12.1.        Key Insights

12.2.        Market Size and Forecast, 2018 – 2031 (US$ Mn)

12.2.1.    North America

12.2.1.1. The U.S.

12.2.1.2. Canada

12.2.1.3. Mexico

12.2.2.    Europe

12.2.2.1. Western Europe

12.2.2.1.1.              The UK

12.2.2.1.2.              Germany

12.2.2.1.3.              France

12.2.2.1.4.              Italy

12.2.2.1.5.              Spain

12.2.2.1.6.              Rest of Western Europe

12.2.2.2. Eastern Europe

12.2.2.2.1.              Poland

12.2.2.2.2.              Russia

12.2.2.2.3.              Rest of Eastern Europe

12.2.3.    Asia Pacific

12.2.3.1. China

12.2.3.2. India

12.2.3.3. Japan

12.2.3.4. Australia & New Zealand

12.2.3.5. South Korea

12.2.3.6. ASEAN

12.2.3.7. Rest of Asia Pacific

12.2.4.    Middle East & Africa

12.2.4.1. UAE

12.2.4.2. Saudi Arabia

12.2.4.3. South Africa

12.2.4.4. Rest of MEA

12.2.5.    South America

12.2.5.1. Argentina

12.2.5.2. Brazil

12.2.5.3. Rest of South America

Chapter 13.            North America Quantum Cryptography & Network Market Analysis

13.1.        Key Insights

13.2.        Market Size and Forecast, 2018 – 2031 (US$ Mn)

13.2.1.    By Component

13.2.2.    By Security Type

13.2.3.    By Network Type

13.2.4.    By Cryptography Encryption Types

13.2.5.    By Cryptography Encryption Algorithms

13.2.6.    By Enterprise Size

13.2.7.    By End User

13.2.8.    By Country

Chapter 14.            Europe Quantum Cryptography & Network Market Analysis

14.1.        Key Insights

14.2.        Market Size and Forecast, 2018 – 2031 (US$ Mn)

14.2.1.    By Component

14.2.2.    By Security Type

14.2.3.    By Network Type

14.2.4.    By Cryptography Encryption Types

14.2.5.    By Cryptography Encryption Algorithms

13.2.5.    By Cryptography Encryption Algorithms

13.2.6.    By Enterprise Size

13.2.7.    By End User

13.2.8.    By Country

Chapter 14.            Europe Quantum Cryptography & Network Market Analysis

14.1.        Key Insights

14.2.        Market Size and Forecast, 2018 – 2031 (US$ Mn)

14.2.1.    By Component

14.2.2.    By Security Type

14.2.3.    By Network Type

14.2.4.    By Cryptography Encryption Types

14.2.5.    By Cryptography Encryption Algorithms

15.2.7.    By End User

15.2.8.    By Country

Chapter 16.            Middle East & Africa Quantum Cryptography & Network Market Analysis

16.1.        Key Insights

16.2.        Market Size and Forecast, 2018 – 2031 (US$ Mn)

16.2.1.    By Component

16.2.2.    By Security Type

16.2.3.    By Network Type

16.2.4.    By Cryptography Encryption Types

16.2.5.    By Cryptography Encryption Algorithms

16.2.6.    By Enterprise Size

16.2.7.    By End User

16.2.8.    By Country

Chapter 17.            South America Quantum Cryptography & Network Market Analysis

17.1.        Key Insights

17.2.        Market Size and Forecast, 2018 – 2031 (US$ Mn)

17.2.1.    By Component

17.2.2.    By Security Type

17.2.3.    By Network Type

17.2.4.    By Cryptography Encryption Types

17.2.5.    By Cryptography Encryption Algorithms

17.2.6.    By Enterprise Size

17.2.7.    By End User

17.2.8.    By Country

Chapter 18.           Company Profile (Company Overview, Financial Matrix, Key Product landscape, Key Personnel, Key Competitors, Contact Address, and Business Strategy Outlook)

18.1.        Amazon

18.2.        Crypta Labs

18.3.        IBM Corporation

18.4.        D-Wave

18.5.        Intel

18.6.        Isara and Post-Quantum

18.7.        Google LLC

18.8.        Magiq Technologies

18.9.        Microsoft

18.10.      Nucrypt

18.11.      Qasky

18.12.      Quantum Computing Inc (QCI)

18.13.      Quantum Xchange

18.14.      Quantumctek

18.15.      Qubitekk

18.16.      Quintessencelabs

18.17.      Rigetti Computing

18.18.      Toshiba

18.19.      Xanadu

18.20.      Other Prominent Players

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