양자 컴퓨팅 시장 규모 : 업계별, 용도별, 양자 컴퓨팅 모델별, 지역별, 범위 및 예측

Quantum Computing Market Size And Forecast

Quantum Computing Market size was valued at USD 1,060.4 Million in 2023 and is projected to reach USD 4,251.3 Million by 2030 , growing at a CAGR of 19.8% during the forecast period 2024-2030.

Global Quantum Computing Market Drivers

The market drivers for the Quantum Computing Market can be influenced by various factors. These may include: Advancements in Quantum Technology

: Improvements in qubits, error correction methods, and quantum algorithms are just a few of the ongoing developments in quantum technology that are propelling the market for quantum computing. The potential uses and scalability of quantum computing grow as scientists and businesses make strides toward creating more stable qubits and effective algorithms.

Growing Funding and Investments

: Research and development in quantum computing is being fueled by rising funding and investments from public and corporate entities as well as venture capitalists. The development of hardware and software as well as the construction of infrastructure for quantum computing are the goals of these expenditures.

Growing Need for Processing Power

: The need for more potent computing solutions is being driven by the growing complexity of computational issues in a variety of domains, including machine learning, drug development, cryptography, and optimization. Applications needing a lot of processing power are drawn to quantum computers because they can potentially handle some problems tenfold quicker than traditional computers.

ability Disruption Across Industries

: Quantum computing has the ability to solve complicated issues and optimize processes, and industries like banking, healthcare, logistics, and materials science are investigating this possibility. Cryptography is one area where quantum computing has the potential to completely transform since quantum-resistant techniques are being developed to protect data from quantum attacks.

Partnerships and Collaborations

: Research and development activities in quantum computing are being expedited by collaborations across government, industry, and academic institutions. Innovation in the quantum computing ecosystem is being propelled by partnerships across technology businesses, universities, and research institutes. These partnerships facilitate information exchange, talent recruiting, and resource pooling.

Increasing Knowledge and Education

: There is a growing interest in investigating the possible uses and ramifications of quantum computing as knowledge of it among researchers, businesses, and the general public rises. The next generation of quantum scientists and engineers are being trained and the field of quantum computing is being furthered through educational programs, workshops, and conferences.

Global Quantum Computing Market Restraints

Several factors can act as restraints or challenges for the Quantum Computing Market. These may include:

Technical Challenges

: The technological challenges facing quantum computing are numerous and include qubit stability, error correction, and scalability. These technologies are still in their early stages of development. It may take longer for advancement to occur if significant research and development is needed to overcome these obstacles.

Cost of Development and Infrastructure

: The construction and upkeep of quantum computers necessitate expensive facilities and specialized machinery. Furthermore, the amount of money required for research and development in order to advance quantum computing technology is significant, which restricts the number of businesses that may compete in this field.

Restricted Useful Applications

: Although quantum computing has enormous potential for some uses, such as drug discovery, optimization, and cryptography, many useful uses are currently theoretical or in the early phases of development. Enterprise adoption and investment may be discouraged by the absence of concrete, real-world use cases.

Absence of Skilled Workers

: Knowledge of sophisticated mathematics, computer science, and quantum physics are necessary for quantum computing. Progress in this subject may be hampered by the existing lack of experts with the know-how to design, program, and run quantum computers.

Environmental Concerns

: In order to function, quantum computers need very low temperatures and certain surroundings. Concerns over the environmental effects of scaling up quantum computing processes are raised by the fact that cooling systems and other infrastructure required to sustain these conditions might consume large amounts of energy.

Challenges with Security and Privacy

: Although quantum computing has great promise for transforming cybersecurity and encryption, there are security concerns associated with it as well. Current encryption standards may be broken by quantum computers, leaving sensitive data and conversations vulnerable.

Regulatory and Ethical Issues

: As quantum computing develops, its application will be subject to new ethical and regulatory issues, especially in relation to national security, data privacy, and intellectual property rights. Uncertainty over ethical standards and legal frameworks could impede adoption and investment.

Global Quantum Computing Market Segmentation Analysis

The Global Quantum Computing Market is Segmented on the basis of Industry Vertical, Application, Model of Quantum Computing, and Geography.

By Industry Vertical

Finance

: For risk analysis, portfolio optimization, and fraud detection, this includes banks, hedge funds, and other financial institutions.

Pharmaceuticals & Healthcare

: For customized medicine, molecular modeling, and drug discovery.

Aerospace & Defense

: Applications such as cryptography, secure communications, and optimization issues are covered under the aerospace and defense domain.

Energy and Utilities

: This includes material simulation for renewable energy, energy storage, and grid optimization.

IT & Telecommunications

: For algorithm development, network optimization, and cybersecurity.

By Application

Optimization Problems

: Logistics, supply chain management, and resource allocation are examples of optimization problems.

AI and machine learning

: For data analysis, predictive modeling, and pattern identification.

Cryptography & Security

: Creating secure communication protocols and quantum-resistant encryption methods is the field of cryptography and security.

Simulation & Modeling

: Simulating intricate physical systems, chemical interactions, and materials science is known as simulation and modeling.

Database & Data Management

: Quantum databases and data processing techniques are included in database and data management.

By Model of Quantum Computing

Universal Quantum Computers

: Wide-ranging quantum algorithms can be executed by universal quantum computers.

Quantum Annealers

: Quantum annealers are experts at determining a system's lowest energy state in order to solve optimization challenges.

Quantum Simulators

: Quantum simulators are tools used to model and study the behavior and characteristics of quantum systems.

Hybrid Quantum Systems

: combining components of quantum and traditional computers for particular uses.

By Geography

North America:

Market conditions and demand in the United States, Canada, and Mexico.

Europe:

Analysis of the Quantum Computing Market in European countries.

Asia-Pacific:

Focusing on countries like China, India, Japan, South Korea, and others.

Middle East and Africa:

Examining market dynamics in the Middle East and African regions.

Latin America:

Covering market trends and developments in countries across Latin America.

Key Players

The major players in the Quantum Computing Market are:

IBM (US)

D-Wave Systems Inc. (Canada)

Microsoft (US)

Amazon Web Services (US)

Rigetti Computing (US)

QC Ware (US)

Toshiba (Japan)

Google (US)

Intel (US)

Quantinuum (US)

TABLE OF CONTENTS

1. Introduction

• Market Definition
• Market Segmentation
• Research Methodology

2. Executive Summary

• Key Findings
• Market Overview
• Market Highlights

3. Market Overview

• Market Size and Growth Potential
• Market Trends
• Market Drivers
• Market Restraints
• Market Opportunities
• Porter's Five Forces Analysis

4. Quantum Computing Market, By Industry Vertical

• Finance
• Pharmaceuticals & Healthcare
• Aerospace & Defense
• Energy and Utilities
• IT & Telecommunications

5. Quantum Computing Market, By Application

• Optimization Problems
• AI and machine learning
• Cryptography & Security
• Simulation & Modeling
• Database & Data Management

6. Quantum Computing Market, By Model of Quantum Computing

• Universal Quantum Computers
• Quantum Annealers
• Quantum Simulators
• Hybrid Quantum Systems

7. Regional Analysis

• North America
• United States
• Canada
• Mexico
• Europe
• United Kingdom
• Germany
• France
• Italy
• Asia-Pacific
• China
• Japan
• India
• Australia
• Latin America
• Brazil
• Argentina
• Chile
• Middle East and Africa
• South Africa
• Saudi Arabia
• UAE

8. Competitive Landscape

• Market Share Analysis
• Key Strategies

9. Company Profiles

• IBM (US)
• D-Wave Systems Inc. (Canada)
• Microsoft (US)
• Amazon Web Services (US)
• Rigetti Computing (US)
• QC Ware (US)
• Toshiba (Japan)
• Google (US)
• Intel (US)
• Quantinuum (US)

10. Market Outlook and Opportunities

• Emerging Technologies
• Future Market Trends
• Investment Opportunities

11. Appendix

• List of Abbreviations
• Sources and References