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市場調查報告書

QUBIT半導體市場 - 2021年∼2026年前的預測

QUBIT Semiconductor Market - Forecasts from 2021 to 2026

出版商 Knowledge Sourcing Intelligence 商品編碼 1002849
出版日期 內容資訊 英文 110 Pages
商品交期: 最快1-2個工作天內
價格
QUBIT半導體市場 - 2021年∼2026年前的預測 QUBIT Semiconductor Market - Forecasts from 2021 to 2026
出版日期: 2021年02月10日內容資訊: 英文 110 Pages
簡介

全球QUBIT半導體的市場規模在2020年估算為4,083萬1,000美元,2016年前預計將以68.74%的年複合成長率增長,達到9億4,254萬4,000美元。

QUBIT半導體是需要高速處理的超快速電子設備的基礎。隨著量子計算應用的擴展,對QUBIT半導體技術的需求也在增加。IBM,Strange Works Quantum Computing,Xanadu Quantum Computing,Atom Computing和Bleximo等公司以及NASA和MIT等機構都在投資這項技術,並在先進的量子材料市場中佔有很大佔有率。

本報告提供全球QUBIT半導體市場調查,提供市場概要,材料·用途·各地區的市場規模的變化與預測,市場成長的推動要素及阻礙因素分析,波特的五力分析,競爭情形,主要企業的簡介等全面性資訊。

目錄

第1章 簡介

  • 市場定義
  • 市場區隔

第2章 調查手法

  • 調查資料
  • 假設

第3章 摘要整理

  • 調查的重點

第4章 市場動態

  • 市場推動要素
  • 市場阻礙因素
  • 波特的五力分析
    • 供給企業談判力
    • 買方議價能力
    • 競爭企業間的敵對關係
    • 新加入企業的威脅
    • 替代品的威脅
  • 產業價值鏈分析

第5章 QUBIT半導體市場分析:各材料

  • 簡介

第6章 QUBIT半導體市場分析:各用途

  • 簡介
  • 量子運算
  • AI機器人
  • 電力電池·儲存
  • 太陽能電池
  • 其他

第7章 QUBIT半導體市場分析:各地區

  • 簡介
  • 南北美洲
  • 歐洲·中東·非洲
  • 亞太地區

第8章 競爭環境與分析

  • 主要企業策略分析
  • 新興企業和市場收益性
  • 合併·收購·協定·合作
  • 供應商競爭力矩陣

第9章 企業簡介

  • Strangeworks
  • IBM
  • Xanadu Quantum Computing
  • Atom Computing
  • Bleximo
目錄

The QUBIT semiconductor market is expected to grow at a compound annual growth rate of 68.74% over the forecast period to reach a market size of US$942.544 million in 2026 from US$40.831 million in 2020. QUBIT semiconductor refers to the advanced transmitters for electrons within the device. These semi-conductors form the basis of ultra-fast electronics and devices which require speed processing. It calibrates with nanotechnology and circuit-fabric which aims to develop thin sheets for chip and other nano computing materials. The QUBIT semi-conductor technology demand increases with an increase in applications of Quantum Computers. The demand is prevalent in aerospace and scientific research purposes for understanding the movement of particulate matter in detail. The materials interact with the software and create a virtual medium for the device. The device is then able to take commands even without the multiple circuits and wiring in place. Thus, The utility of quantum computers is significantly based on the type of material used for the QUBIT transmitting semi-conductor which are generally silicon and germanium. Companies such as IBM, Strange Works Quantum Computing, IBM, Xanadu Quantum Computing, Atom Computing, and Bleximo and Institutions such as NASA, MIT are investing their resources in such technologies to hold the major share in the advanced quantum materials market.

Since the market is limited with demand from advanced exploratory centers and research and department of highly advanced companies such as IBM. There was not much change seen in the COVID-19 scenario. Though, the projects working under the technology were suspended given that the revenues were declining as compared to the normal scenarios. However, as the market expects revival and has shown interest in advanced artificial intelligence and quantum technology, the demand for the semiconductor is expected to rise. Currently, a subset of the QUBIT semiconductor segment is enhancing the displays of the electronic devices for advanced smartphones, industrial machine controlling panels, and devices at the aerospace stations. The technology will act as an auxiliary for Machine Learning, Artificial Intelligence, and Robotics Machine Technology.

Innovative projects in the Quantum Computing Space

In the market trends of 2020-2026, the demand for QUBIT semiconductors is limited to Quantum Computing and high-quality displays of advanced high-speed computing devices used in the scientific research and development industry. Despite the technology is not yet customized for retail markets, the companies are in the development of tools that can aid the upcoming quantum computing revolution and thus create a demand for QUBIT semi-conductors, For instance, in November 2020, IBM has revealed a plan of developing 1000 QUBIT computer with advanced semiconducting devices involved. The company in association with Google has run multiple simulation checks for ascertaining the utility of such devices in today's complex world. The machine aims to aid Artificial intelligence, business intelligence, with increased automation productivity and efficiency. In May 2020, Startups such as Rigetti Computing and PsiQuantum are strategizing and developing products to stand against big giants such as Google and IBM in the space of Quantum Computers, Rigetti has received funding support of $190 million from Andreessen Horowitz to build a quantum computer and related offerings. PsiQuantum also received funding support of $215 million.

Airbus is planning to adopt prevailing quantum machines for quick resolution of complex problems within the aerospace industry, such as data handling, reducing direct streaming latency for getting satellite images, and for manufacturing aircraft. Taking proactive steps towards development, The company also hosted the contest for the quantum computing-driven challenge to optimize the design for aircraft, reducing fuel usage, and others. Comparatively, Quantum computing is the young and dynamic market still in the exploratory phases undergoing trial and error, the increasing rate of companies adopting quantum computing techniques for some of the identified uses such as quality inspection of manufactured materials, aerospace manufacturing, and others, are expected to drive up the demand for QUBIT semiconductor materials and equipment.

Regional Analysis

Overall, the United States and European nations such as Germany, Italy and Japan, South Korea from the Asia Pacific have a major share in the terms of contributing to technology. Since the technology has not been made available to all the nations and is thus limited in application. Asian Development Bank urges the governments to undertake projects based on Quantum computer devices and materials to explore the benefits of it in routine use. The bank has considered Asia as a perfect pivot ground for such developments as the population is young with a dynamic mindset to experiment. Nations such as Viet Nam, the Philippines, the People's Republic of China, and India have emerged as start-up nations that offer grounds for trial and error.

Segmentation

  • By Material

Silicon

Germanium

  • By Applications

Quantum Computing

Artificial Intelligence

Power Batteries and Storage

Solar Cells

Others

  • By Geography

Americas

Europe Middle East and Africa

Asia Pacific

Table of Contents

1. Introduction

  • 1.1. Market Definition
  • 1.2. Market Segmentation

2. Research Methodology

  • 2.1. Research Data
  • 2.2. Assumptions

3. Executive Summary

  • 3.1. Research Highlights

4. Market Dynamics

  • 4.1. Market Drivers
  • 4.2. Market Restraints
  • 4.3. Porters Five Forces Analysis
    • 4.3.1. Bargaining Power of Suppliers
    • 4.3.2. Bargaining Power of Buyers
    • 4.3.3. Threat of New Entrants
    • 4.3.4. Threat of Substitutes
    • 4.3.5. Competitive Rivalry in the Industry
  • 4.4. Industry Value Chain Analysis

5. QUBIT Semiconductor Market Analysis, By Material

  • 5.1. Introduction
  • 5.2. Silicon
  • 5.3. Germanium

6. QUBIT Semiconductor Market Analysis, By Applications

  • 6.1. Introduction
  • 6.2. Quantum Computing
  • 6.3. Artificial Intelligence Robots
  • 6.4. Power Batteries and Storage
  • 6.5. Solar Cells
  • 6.6. Others

7. QUBIT Semiconductor Market Analysis, By Geography

  • 7.1. Introduction
  • 7.2. Americas
  • 7.3. Europe Middle East and Africa
  • 7.4. Asia Pacific

8. Competitive Environment and Analysis

  • 8.1. Major Players and Strategy Analysis
  • 8.2. Emerging Players and Market Lucrativeness
  • 8.3. Mergers, Acquisitions, Agreements, and Collaborations
  • 8.4. Vendor Competitiveness Matrix

9. Company Profiles

  • 9.1. Strangeworks
  • 9.2. IBM
  • 9.3. Xanadu Quantum Computing
  • 9.4. Atom Computing
  • 9.5. Bleximo