全球電子設計自動化工具 (EDA) -市場佔有率分析、行業趨勢和成長預測（2025-2030 年）

Global Electronic Design Automation Tools (EDA) - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)

出版日期: 2025年01月05日 | 出版商:

Mordor Intelligence | 英文 150 Pages | 商品交期: 2-3個工作天內

價格

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簡介目錄

2025 年全球電子設計自動化工具市場價值預估為 192.2 億美元，預計到 2030 年將達到 288.5 億美元，預測期內（2025-2030 年）的複合年成長率為 8.46%。

市場擴張的主要因素是對緊湊型電子設備的需求不斷成長，以及 SoC 技術在汽車、物聯網和人工智慧等各個行業中的應用日益廣泛。

關鍵亮點

矽晶圓領域最近受到電子設計自動化 (EDA) 技術的推動。 EDA 負責以允許生態系統獲利運作的成本來創建 IC 設計流程所需的設計工具。
使用 EDA 工具的好處包括減少開發複雜 IC 的時間、降低製造成本、消除製造缺陷、改善 IC 設計、提高易用性。
根據世界半導體貿易統計組織（WSTS）預測，2021年半導體產業規模將成長10.9%，較前一年的成長速度大幅提升，達到約4,880億美元。因此，預計各半導體供應商將增加研發預算。例如，2021年4月，台灣半導體製造有限公司（台積電）宣布將在未來三年投資1,000億美元擴大其晶片製造能力和研發。
晶片製造商越來越傾向於將人工智慧納入邊緣運算。邊緣運算將運算能力帶到設備級別，提高效率和回應時間。例如，英特爾專注於“邊緣運算”，從而能夠將人工智慧融入物聯網設備和智慧型手機。
EDA 因其諸多優勢而越來越受歡迎，其中包括更短的設計時間和更少的錯誤。 EDA 工具已廣泛應用於各個行業，例如汽車和航太工業。然而，EDA 的缺點之一是無法從過去的設計中獲得洞察力。
莫耳定律（預測積體電路上電晶體的數量將每18到24個月加倍）自半導體發明以來一直是正確的。但近年來，科學家開始相信，基本的物理限制可能很快就會使得在經濟上難以將更多的設備安裝到同樣小的區域內，最終導致莫耳定律很有可能被證明是錯誤的。
自新冠肺炎疫情爆發以來，半導體產業受到嚴重影響，供應鏈和生產設施受到顯著衝擊。 2020年2月和3月，中國大陸和台灣的生產暫停，影響了全球其他OEM生產。不過，相當一部分主要供應商已經在農曆新年來臨之前儲備了電子設備，降低了風險。此外，由於半導體產業成長放緩，疫情開始時對 EDA 工具的需求略有下降，但自那以後，市場在一年內一直在成長。

EDA 工具市場趨勢

IC物理設計與檢驗領域強勁成長

IC物理設計是指利用EDA工具創建IC的幾何表示。利用EDA將晶片分類為小塊，並規劃每個塊所需的具體空間，以確保最大限度地提高性能。然後使用時鐘合成器將這些塊放置在前面和後面。
最近的技術進步正在鼓勵晶片組製造商利用 ASIC 技術，主要用於 5G。結構化ASIC（同時具有ASIC 和現場可編程閘陣列(FPGA) 元素的架構）的出現，催生了全尺寸ASIC，需要在基礎ASIC 層之上添加可修改的內容。這降低了製造成本到 ASIC。
混合訊號晶片，或包含類比和數位電路的積體電路（IC），正成為日益成長的趨勢。混合訊號架構對於 SoC 和 ASIC 設計人員來說變得越來越必要。這種需求受到物聯網、通訊、汽車工業和工業控制等產業的影響。例如，2022 年 7 月，SiemensEDA（原名 Mentor）發布了其混合訊號檢驗軟體 Symphony Pro 的重大更新。
同樣在 2022 年 7 月，西門子數位工業軟體宣佈為其用於積體電路 (IC) 實體檢驗的 Calibre 平台推出一系列針對電子設計自動化 (EDA) 的擴展早期設計檢驗(EDV) 功能。這些新功能旨在幫助 IC 設計團隊和公司識別、分析和解決 IC 和檢驗系統晶片(SoC) 實體檢驗中的挑戰，從而幫助他們更快地完成計劃。它可以幫助IC設計人員將物理檢驗和電路檢驗的任務「遷移」起來。
此外，2022年2月，國際領先的電子設計服務供應商Verist Solutions宣布將在英國建立設計中心，並擴大其服務範圍，包括實體設計服務。英國新成立的專業團隊將為公司現有客戶和新客戶提供測試設計（DFT）和實體設計支援。新團隊將使電子系統公司能夠將整個 ASIC 設計計劃外包給 Veriest，從而幫助滿足對客製化半導體設計高品質解決方案日益成長的需求。

預計北美將佔據較大的市場佔有率

EDA 工具通常用於設計電路基板、處理器和其他複雜的電子設備。由於家用電子電器和汽車等行業採用 EDA 工具，北美的市場需求預計將增加。此外，半導體和電路製造業新興市場的發展正在推動EDA工具在該地區的存在。此外，主要的 EDA 工具供應商包括總部位於北美的公司，例如 Xilinx Inc.、Ansys Inc.、Keysight Technologies Inc.、Cadence Design Systems Inc. 和 Synopsys Inc.
一些北美供應商正在投資擴大其產品組合，以滿足該地區對 EDA 工具的需求。例如，晶片製造商 Advanced Micro Devices Inc. 於 2022 年 5 月宣布，它打算將部分用於晶片設計的電子設計自動化工作負載轉移到 Google Cloud，以擴展其資料中心功能。這將使客戶能夠利用 Google 最新的運算最佳化 C2D虛擬機實例，該實例由第三代 AMD EPYC 處理器提供支持，並配備先進的網路、儲存和人工智慧功能。
為了應對日益激烈的競爭和更短的上市時間，一些供應商繼續看到客戶希望加速數位轉型的強烈需求。例如，2022 年 7 月，英特爾代工服務（IFS）宣布了一項全新的雲端聯盟計劃，作為其加速器計劃的一部分。雲端聯盟透過按需運算簡化了代工客戶的設計效率，同時在雲端保護他們的設計環境。 Ansys、Cadence、西門子 EDA 和 Synopsys 是雲端聯盟的一些創始成員，還有一些電氣設計自動化 (EDA) 領域的領先公司。
2021年6月，台積電宣布將投資120億美元在美國亞利桑那州建設電腦晶片工廠，並從2024年開始大量生產採用該公司5奈米製造技術的晶片。該公司還於 2021 年 4 月宣布了一項 1000 億美元的投資計劃，以在未來三年內增加工廠產能。
美國是半導體產業製造、設計和研究的關鍵國家。該地區的崛起正刺激對電子產品出口的需求，以及作為半導體重要消費者的終端用戶產業的成長，例如家用電子電器和汽車產業。例如，美國半導體產業協會（SIA）於2022年2月宣布，2021年全球半導體產業收益將達到5,559億美元，創下有紀錄以來的最高年度總額，低於2020年的4,404億美元據悉，這一數字比去年的平均高出了26.2%。由於全球晶片短缺導致的強勁需求，晶片製造商加大產量，2021 年半導體產業出貨量創下 1.15 兆顆的歷史新高。

EDA 工具產業概覽

EDA 市場高度分散。汽車、物聯網、人工智慧以及虛擬實境/擴增實境領域的新商機使半導體公司能夠在積體電路生產週期的所有階段蓬勃發展，從而實現顯著的收入成長。儘管晶片性能已經有了顯著提升，而單價卻保持相對平穩，但這種情況仍然發生。該行業的主要企業包括 ANSYS、Cadence Design Systems、摘要和 Keysight Technologies。 EDA 市場的關鍵發展包括：

2022 年 3 月－新思科技宣布推出專為雲端設計的全新電子設計自動化 (EDA) 部署模式。該模型透過單一來源、付費使用制的方式描述了「無與倫比的晶片和系統設計靈活性」。透過 Microsoft Azure 上最佳化的基礎架構，Synopsys Cloud 提供針對雲端最佳化的設計和檢驗技術，以解決晶片開發中日益成長的相互依賴性。
2021 年6 月－賽靈思公司(Xilinx, Inc.) 宣布推出Vivado ML Editions，這是一款FPGA EDA 工具包，基於機器學習(ML) 最佳化技術和先進的基於團隊的設計程序，可顯著縮短設計時間和降低成本。將新的 Vivado ML 版本與現有的 Vivado HLx 版本進行比較，前者的編譯時間提高了 5 倍，並在具有挑戰性的設計上實現了平均 10% 的突破性結果品質 (QoR) 提升。
2021 年 6 月 - Aldec Inc. 現在提供 HES-DVM Proto 雲端版本 (CE)。 HES-DVM Proto CE 可用於對基於 FPGA 的 SoC/ASIC 設計原型製作設計，專注於自動進行設計分區，推出。
2021 年 5 月 - Cadence 設計系統宣布推出針對 PCI Express 5.0 規範的低功耗 IP，旨在用於採用台積電 N5 製程技術製造的超大規模運算、網路和儲存應用。此外，PCIe 5.0 技術還包括 PHY、伴同性控制器和檢驗IP（VIP），用於應用友善的超高頻寬SoC 設計。

其他福利

Excel 格式的市場預測 (ME) 表
3 個月的分析師支持

Key Highlights

The silicon sector has evolved in recent years because of electronic design automation (EDA) techniques. EDA is responsible for creating the design tools necessary for the IC design process at a cost that enables the ecosystem to run profitably.
Some of the benefits of using EDA tools include reducing the amount of time needed to develop complicated ICs, cutting manufacturing costs, eliminating manufacturing defects, improving IC design and ease of use, etc.
According to World Semiconductor Trade Statistics (WSTS), the semiconductor industry is expected to grow by 10.9% in 2021, which is a significant growth compared to the previous year's growth, approximately amounting to USD 488 billion. Owing to this, various semiconductor vendors are expected to increase their R&D budgets. For instance, in April 2021, Taiwan Semiconductor Manufacturing Corporation ( TSMC) announced to spend USD 100 billion over the next three years to expand its chip fabrication capacity and R&D.
Chipmakers are increasingly leaning toward incorporating AI on edge computing, owing to the computational capabilities it brings to the table at the device level, increasing both efficiency and response time. For instance, Intel is focusing on 'edge computing' to enable AI incorporation into IoT devices to smartphones.
EDA has become more popular due to its many benefits, including shorter design times and fewer errors. EDA tools have become more widely used in various industries, including the automotive and aerospace industries. However, one of EDA's shortcomings lies in its inability to obtain insights from previous designs.
Since the inception of semiconductors, Moore's Law-the prediction that the number of transistors in an integrated circuit will increase two-fold every 18-24 months-has held true. However, in recent years, scientists have increasingly come to believe that fundamental physical limits may soon make it hard to economically place additional elements on the same small area, which could ultimately prove that Moore's Law is faulty.
Since the COVID-19 breakout, the semiconductor industry has been severely impacted, significantly impacting its supply chain and production facilities. In February and March 2020, China and Taiwan's production ceased, affecting other OEM production worldwide. However, a significant portion of important vendors stocked up on electronics in anticipation of the Chinese New Year, which reduced the risk. Additionally, with the semiconductor industry's slowing growth, the initial pandemic epidemic saw a minor decline in demand for EDA tools; but, over the course of a year, the market experienced growth.

EDA Tools Market Trends

IC Physical Design and Verification Segment to Grow Significantly

IC physical design refers to the creation of geometric representations of ICs, using EDA tools. EDA is used to divide the chip into smaller blocks and then plan the specific space required for each block to ensure maximum performance. These blocks are then placed, using before and after clock synthesis.
The recent technological advancements have been helping several chipset manufacturers to make use of ASIC technology, mainly for 5G. The advent of structured ASIC, having elements of both ASICs and field-programmable gate arrays (FPGA), like architecture, has led to the cost of production becoming cheaper compared to full-blown ASIC, which requires the addition of a modifiable on top of the base ASIC layer.
Mixed-signal chips, or integrated circuits (ICs) featuring analog and digital circuitry, are a growing trend. Mixed-signal architectures are becoming progressively and more necessary for SoC and ASIC designers. This demand is influenced by industries including the internet of things, communications, the automobile industry, and industrial control. For instance, in July 2022, the mixed-signal verification software Symphony Pro had a significantly updated version from Siemens EDA (previously Mentor).
Also, in July 2022, Siemens Digital Industries Software announced a variety of expanded early design verification (EDV) functions for electronic design automation (EDA) for its Calibre platform for integrated circuit (IC) physical verification. These new capabilities, which were developed to assist IC design teams and businesses in completing projects more quickly, can assist IC designers in "shifting left" their physical and circuit verification tasks by putting the identification, analysis, and resolution of challenging IC and system-on-chip (SoC) physical verification issues into earlier stages of the design and verification flow.
Furthermore, in February 2022, Veriest Solutions, a prominent international provider of electronics design services, built a design center in the United Kingdom and announced the expansion of its offerings to include physical design services. Customers of the company, both current and new, will now have access to Design for Test (DFT) and Physical Design support due to the new specialist team in the United Kingdom. The inclusion of the new team will also allow electronic system firms to outsource whole ASIC design projects to Veriest, meeting the growing need for high-quality solutions for customized semiconductor designs.

North America is Expected to Hold a Significant Market Share

EDA tools often design circuit boards, processors, and other complex electronics. The adoption of EDA tools in industries such as consumer electronics, and automotive, is set to increase demand for the market in North America. Also, growing developments in the semiconductor industry and circuit manufacturing industry have raised the market's prominence in the region. Also, some of the significant vendors of EDA tools are headquartered in North America, such as Xilinx Inc., Ansys Inc., Keysight Technologies Inc., Cadence Design Systems Inc., and Synopsys Inc.
Some North American suppliers have been investing in improving the company's product lines and broadening the firm reach to meet the demand for EDA tools in the region. For instance, in May 2022, Chipmaker Advanced Micro Devices Inc. announced that the company intends to move some of its electronic design automation workloads for chip design onto Google Cloud to expand the capabilities of the company's data centers. This will allow taking advantage of Google's most recent compute-optimized C2D virtual machine instances, which are powered by 3rd Gen AMD EPYC processors, as well as advanced networking, storage, and artificial intelligence capabilities.
Some of the vendors have continued to see strong demand from their customers, who are looking forward to accelerating their digital transformation as engineering teams adapt to increasing competition and shrinking time to market windows. For instance, in July 2022, Intel Foundry Services (IFS) unveiled a brand-new Cloud Alliance program as a component of its Accelerator program. Cloud Alliance streamlines design efficiency for foundry clients with on-demand computing while securing design environments on the cloud. Ansys, Cadence, Siemens EDA, and Synopsys are a few of the founding members of the Cloud Alliance, along with other prominent companies in electrical design automation (EDA).
In June 2021, Taiwan-based Semiconductor Manufacturing Co. Ltd (TSMC) started construction at a site in Arizona where it plans to spend USD 12 billion to build a computer chip factory, which will begin volume production of chips using the company's 5-nanometer production technology starting in 2024. The company also announced a USD 100 billion investment plan in April 2021 to increase capacity at its factories over the next three years.
The United States is a significant country in the semiconductor industry's manufacturing, design, and research. The region's prominence drives the demand for exporting electronics equipment and growing end-user industries that are significant consumers of semiconductors, such as consumer electronics and the automotive industry. For instance, the US semiconductor company, the Semiconductor Industry Association (SIA), in February 2022, reported that revenues for the worldwide semiconductor industry reached USD 555.9 billion in 2021, the highest yearly total ever and a rise of 26.2% over the USD 440.4 billion total for 2020. In 2021, the semiconductor industry shipped a record 1.15 trillion units as chip companies increased output to meet the strong demand brought on by the worldwide chip shortage.

EDA Tools Industry Overview

The EDA market is highly fragmented. New opportunities in the automotive, IoT, artificial intelligence and virtual/augmented reality sectors have allowed semiconductor companies throughout all phases of the IC production cycle to prosper, with sizable revenue increases. This has occurred despite significant gains in chip performance but at relatively flat unit sales prices. Some of the key players in the industry include ANSYS, Cadence Design Systems, Synopsis, Keysight Technologies, etc. Some of the key developments in the EDA market are as follows:

March 2022 - Synopsys has announced the introduction of a new electronic design automation (EDA) deployment model that is designed for the cloud and provides "unparallel levels of chip and system design flexibility" through a single-source, pay-as-you-go approach. With pre-optimized infrastructure on Microsoft Azure, Synopsys Cloud provides access to the company's cloud-optimized design and verification technologies, which address increased levels of interdependencies in chip development.
June 2021 - Xilinx, Inc. unveiled Vivado ML Editions, an FPGA EDA tool package based on machine learning (ML) optimization techniques and advanced team-based design procedures for considerable design time and cost savings. Comparing the new Vivado ML Editions to the existing Vivado HLx Editions, the former offers a 5x quicker compilation time and revolutionary quality of results (QoR) improvements that average 10% on difficult designs.
June 2021 - Aldec Inc. launched HES-DVM Proto Cloud Edition (CE). It is available through Amazon Web Service (AWS); HES-DVM Proto CE can be used for FPGA-based prototyping of SoC / ASIC designs and focuses on automated design partitioning to greatly reduce bring-up time when up to four FPGAs are needed to accommodate a design.
May 2021- Cadence Design Systems announced low-power IP for the PCI Express 5.0 specification that targets hyper-scale computing, networking, and storage applications that are made on TSMC N5 process technology. In addition, PCIe 5.0 technology consists of a PHY, companion controller, and Verification IP (VIP) targeted at SoC designs for very high bandwidth to suit the applications.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumptions and Market Definition
1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

4.1 Market Overview
4.2 Industry Value Chain Analysis
4.3 Industry Attractiveness: Porter's 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 Intensity of Competitive Rivalry
- 4.3.5 Threat of Substitute Products
4.4 Assessment of the Impact of COVID-19 on the Industry

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Booming Automotive, IoT, and AI Sectors
- 5.1.2 Upcoming Trend of EDA Toolsets Equipped with Machine Learning Capabilities
5.2 Market Restraints
- 5.2.1 Moore's Law about to be Proven Faulty

6 MARKET SEGMENTATION

6.1 Type
- 6.1.1 Computer-aided Engineering (CAE)
- 6.1.2 IC Physical Design and Verification
- 6.1.3 Printed Circuit Board and Multi-chip Module (PCB and MCM)
- 6.1.4 Semiconductor Intellectual Property (SIP)
- 6.1.5 Services
6.2 Application
- 6.2.1 Communication
- 6.2.2 Consumer Electronics
- 6.2.3 Automotive
- 6.2.4 Industrial
- 6.2.5 Other Applications
6.3 Geography
- 6.3.1 North America
- 6.3.2 Europe
- 6.3.3 Asia Pacific
- 6.3.4 Rest of the World

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 Altium Limited
- 7.1.2 Ansys Inc.
- 7.1.3 Cadence Design Systems Inc.
- 7.1.4 Keysight Technologies Inc.
- 7.1.5 Agnisys Inc.
- 7.1.6 Aldec Inc.
- 7.1.7 Lauterbach GmbH
- 7.1.8 Mentor Graphic Corporation (Siemens PLM Software)
- 7.1.9 Synopsys Inc.
- 7.1.10 Xilinx Inc.
- 7.1.11 Zuken Ltd.