模擬軟體：市場佔有率分析、產業趨勢、統計數據和成長預測（2025-2030 年）

預計到 2025 年，模擬軟體市場規模將達到 135.8 億美元，到 2030 年將達到 262.6 億美元，複合年成長率為 14.10%。

對人工智慧驅動的數位雙胞胎的日益偏好、不斷強化的永續性要求以及受監管行業對虛擬檢驗的推動，都在推動市場需求。企業越來越將高階建模視為加速產品推出、提升產品品質的策略槓桿，而非只專注於成本削減。儘管雲端的彈性降低了准入門檻，但在擁有高度敏感資料的行業，本地部署管理仍然至關重要。現有企業的收購活動表明，能夠將基於物理的求解器與預測分析相結合的端到端平台正在引領市場潮流。雖然北美仍然佔據主導地位，但亞太地區的快速工業化正在加速模擬軟體市場的地理多元化。

全球模擬軟體市場趨勢與洞察

雲端原生模擬技術的應用日益普及

彈性運算消除了硬體瓶頸，使分散式工程團隊能夠不受地理限制地進行協作。可預測的付費使用制與計劃預算相匹配，而託管式高效能運算 (HPC) 服務則降低了內部 IT 開銷。混合部署模式進一步加速了這一趨勢，使企業能夠在保留敏感工作負載的同時，利用雲端突發進行大規模執行。這種轉變正在推動授權模式轉向訂閱模式，並促使參與企業模擬軟體市場。

汽車製造商要求進行虛擬檢驗

汽車製造商正在利用數位雙胞胎重現數百萬種駕駛場景，以用於高級駕駛輔助系統 (ADAS)。這種方法簡化了對不斷變化的安全法規的合規流程，並降低了實體原型的成本。基於經驗數據的高保真模型彌合了虛擬測試和實體測試之間的差距，從而縮短了開發週期。隨著電動車的日益普及，對能夠在單一工作流程中處理熱效應、電磁效應和結構效應的多物理場平台的需求也日益成長。

高效能運算的總擁有成本高

模型保真度的不斷提升導致記憶體和加速器需求不斷成長，令資本預算捉襟見肘。中小企業需要在擁有叢集的穩定性與雲爆發的不確定性之間權衡取捨。專用硬體延長了更新周期，也使投資報酬率分析變得更加複雜。服務供應商正透過提供模擬即服務來填補這一空白，為客戶分攤整個基礎設施成本，並推動模擬軟體市場的發展。

細分市場分析

2024年，本地部署仍將主導模擬軟體市場，佔據61%的市場。擁有成熟高效能運算叢集的公司重視確定性的成本結構和對敏感智慧財產權的直接監管。航太和國防工程團隊仍然傾向於使用內部硬體來簡化安全認證流程。然而，雲端採用率將呈現16.40%的複合年成長率，吸引那些希望在不購買尖峰容量硬體的情況下擴展工作負載的採用者。

混合拓撲結構正在興起，它將專有模型儲存在本地，同時在高峰期將運算密集型運行任務傳送到公有雲。供應商透過統一的編配層來應對這一趨勢，該編排層可在本地和雲端資源之間調度作業，從而減少資源閒置並提高資源利用率。訂閱定價模式使成本與預算週期保持一致，而自助服務入口網站則將配置時間從數週縮短至數分鐘。頻寬的提升使得對延遲敏感的模擬器和測試平台能夠在異地進行耦合，從而將模擬軟體的市場佔有率擴展到分散式團隊。

2024年，汽車產業將以27%的市佔率引領模擬軟體市場，利用數位雙胞胎檢驗自動駕駛功能和電動動力傳動系統。日益嚴格的碰撞和排放法規正促使汽車製造商轉向虛擬認證，從而減少原型車隊並縮短專案週期。然而，醫療保健產業將成為成長最快的領域，到2030年複合年成長率將達到17.10%。

製藥公司正在利用電腦模擬分子相互作用，以減少早期研發失敗；醫療技術開發商則採用患者特異性模型來檢驗植入的兼容性和使用壽命。監管機構正積極採用虛擬隊列來補充臨床證據，從而縮短核准週期數月，並凸顯模擬軟體市場為生命科學創新者帶來的規模效益。航太和國防領域正在大力投資用於下一代機身的多物理場求解器，而電子產業則正在加速推進用於5G天線陣列和晶片封裝協同設計的電磁場建模。能源巨頭正在採用地下模擬器來最佳化碳捕獲井和氫氣儲存，以實現脫碳目標。

模擬軟體市場按部署方式（本地部署、其他）、最終用戶產業（汽車、IT、其他）、模擬產品類型（有限元素分析 (FEA)、其他）、應用領域（產品設計與工程、其他）、元件（軟體授權、其他）和地區進行細分。市場預測以美元計價。

區域分析

北美地區預計2024年將維持38%的模擬軟體市場佔有率，主要得益於其成熟的航太、國防和汽車產業生態系統。幾十年前，聯邦研究津貼催生了先進的求解器，如今，高科技雲端服務供應商正在加速人工智慧主導能力的發展。訂閱模式的廣泛應用簡化了預算並縮短了採購週期。然而，該地區仍然面臨勞動力短缺的困境，這限制了專案規模的擴大，導致企業在安全法規允許的情況下將專業工作外包到海外。

在歐洲，強大的汽車工業基礎和以永續性為導向的法規正在推動虛擬排放測試的普及。嚴格的碳排放政策鼓勵虛擬排放測試，而電動車獎勵則將資金投入電池和熱模擬領域。諸如德國的「工業4.0平台」等工業4.0框架，促進了公共和私人試點項目的開展，這些項目展現了切實的投資回報率，從而刺激了模擬軟體市場的需求。高階多物理場模擬人才的短缺，促使國際院校更新課程設置，更重視以模型為基礎的工程。

在製造業規模化發展和政府數位化藍圖的推動下，亞太地區到2030年將以14.80%的複合年成長率實現最快成長速度。中國正大力推動智慧城市試點項目，這些項目需要城市規模的能源和交通模型；而印度大力發展電子產業，推動了晶片封裝模擬技術的發展。東南亞國家透過稅收優惠政策吸引外資建置數位研發基礎設施，促進了雲端託管平台在當地的普及。智慧財產權保護仍是重要考量因素，因此跨國公司在進入模擬軟體市場時，通常會先從智慧財產權敏感度較低的應用開始。本土廠商則專注於為中型企業提供具成本效益的產品，進一步擴大了其在亞太地區的使用者群體。

其他福利：

• Excel格式的市場預測（ME）表
• 3個月的分析師支持

目錄

第1章 引言

• 研究假設和市場定義
• 調查範圍

第2章調查方法

第3章執行摘要

第4章 市場情勢

• 市場概覽
• 市場促進因素
  • 雲端原生模擬技術的日益普及
  • 汽車產業對虛擬檢驗的需求
  • 快速採用數位雙胞胎舉措
  • AI驅動的生成式模擬工作流程
  • ESG 強制性虛擬永續性評估
  • 5G/ORAN網路功能虛擬化測試
• 市場限制
  • 高效能運算的總擁有成本高
  • 數據互通性和標準差距
  • 雲端外包中的IP安全問題
  • 垂直模擬人才短缺
• 價值/供應鏈分析
• 監管格局
• 技術展望
• 波特五力分析
  • 新進入者的威脅
  • 買方的議價能力
  • 供應商的議價能力
  • 替代品的威脅
  • 競爭對手之間的競爭

第5章 市場規模與成長預測

• 依部署類型
  • 本地部署
  • 雲/SaaS
• 按最終用戶產業
  • 車
  • 航太與國防
  • 電機與電子工程
  • 能源、石油和採礦
  • 資訊科技和通訊
  • 醫療保健和生命科學
  • 教育與研究
  • 其他
• 按模擬類型
  • 有限元素分析（FEA）
  • 計算流體力學（CFD）
  • 許多動態
  • 離散事件與流程仿真
  • 電磁波和射頻
  • 系統級和一維
• 按應用程式字段
  • 產品設計與工程
  • 研發/創新
  • 流程和營運最佳化
  • 培訓、安全和數位模型
  • 數位雙胞胎生命週期管理
• 按組件
  • 軟體許可
  • 服務和諮詢
  • 平台與整合
• 按地區
  • 北美洲
    • 美國
    • 加拿大
    • 墨西哥
  • 南美洲
    • 巴西
    • 阿根廷
    • 其他南美
  • 歐洲
    • 德國
    • 英國
    • 法國
    • 義大利
    • 俄羅斯
    • 其他歐洲地區
  • 亞太地區
    • 中國
    • 日本
    • 印度
    • 韓國
    • ASEAN
    • 其他亞太地區
  • 中東和非洲
    • GCC
    • 土耳其
    • 南非
    • 其他中東和非洲地區

第6章 競爭情勢

• 市場集中度
• 策略趨勢
• 市佔率分析
• 公司簡介
  • Ansys Inc.
  • Dassault Systmes SE
  • Siemens Digital Industries Software
  • Altair Engineering Inc.
  • Autodesk Inc.
  • Hexagon AB（MSC Software）
  • MathWorks Inc.
  • PTC Inc.
  • Synopsys Inc.
  • ESI Group SA
  • CPFD Software LLC
  • Rockwell Automation（ARENA）
  • Bentley Systems Inc.
  • Simio LLC
  • Lanner Group Ltd
  • SIMUL8 Corporation
  • Flow Science Inc.
  • COMSOL Inc.
  • Schneider Electric（SE Electromechanical）
  • SolidWorks Corporation

第7章 市場機會與未來展望

The simulation software market size is valued at USD 13.58 billion in 2025, and it is projected to reach USD 26.26 billion by 2030, advancing at a 14.10% CAGR.

Growing preference for AI-enhanced digital twins, tighter sustainability mandates, and the push for virtual validation across regulated industries combine to lift demand. Enterprises increasingly view advanced modeling as a strategic lever for faster product launches and quality gains rather than a narrow cost-reduction exercise. Cloud elasticity lowers entry barriers, while on-premise control remains vital for sectors that handle highly sensitive data. Acquisitive activity among incumbents shows that end-to-end platforms capable of blending physics-based solvers with predictive analytics now set the competitive pace. North American dominance persists, yet rapid industrialization in Asia-Pacific accelerates geographic diversification within the simulation software market.

Global Simulation Software Market Trends and Insights

Rising Cloud-Native Simulation Adoption

Elastic compute removes hardware bottlenecks and allows distributed engineering teams to collaborate without location constraints. Predictable pay-as-you-go pricing aligns with project budgets, and managed HPC services reduce internal IT overhead. Adoption accelerates further as hybrid deployments let firms keep sensitive workloads on-premise while exploiting cloud bursts for large runs. The shift broadens participation in the simulation software market and pressures license models to move toward subscriptions.

Automotive Demand for Virtual Validation

Automakers rely on digital twins to replicate millions of driving scenarios for advanced driver-assistance systems. The approach streamlines compliance with evolving safety rules and lowers physical prototype costs. High-fidelity models derived from proving-ground data narrow the gap between virtual and physical testing, cutting development cycles. Growing EV penetration intensifies the need for multiphysics platforms that address thermal, electromagnetic, and structural effects in a single workflow.

High Total Cost of Ownership for HPC

Continuous growth in model fidelity inflates memory and accelerator requirements, stretching capital budgets. Smaller enterprises weigh the predictability of owning clusters against the variability of cloud bursts. Specialized hardware lengthens refresh cycles and complicates ROI analyses. Service providers step in with simulation-as-a-service offers that amortize infrastructure across clients and keep adoption on track in the simulation software market

Other drivers and restraints analyzed in the detailed report include:

1. Rapid Uptake of Digital-Twin Initiatives
2. AI-Driven Generative Simulation Workflows
3. Scarcity of Vertical-Domain Simulation Talent

For complete list of drivers and restraints, kindly check the Table Of Contents.

Segment Analysis

On-premise installations still dominate the simulation software market with a 61% share in 2024. Enterprises with established HPC clusters value deterministic cost structures and direct oversight of sensitive intellectual property. Engineering teams in aerospace and defense continue to favor in-house hardware to simplify security accreditation workflows. However, cloud deployments show an 16.40% CAGR and draw adopters looking to scale workloads without purchasing peak-capacity hardware.

Hybrid topologies emerge, storing proprietary models locally while sending compute-heavy runs to public clouds during spike periods. Vendors respond with unified orchestration layers that schedule jobs across on-premise and cloud resources, reducing idle capacity and improving utilization. Subscription pricing aligns expenses with budget cycles, and self-service portals shorten provisioning times from weeks to minutes. As bandwidth improves, latency-sensitive coupling of simulators and test benches can occur off-site, broadening the simulation software market footprint across dispersed teams.

Automotive led the simulation software market with a 27% share in 2024, using digital twins to validate autonomous features and electrified powertrains. Stringent crash and emissions norms drive vehicle makers toward virtual homologation, trimming prototype fleets, and compressing program timelines. Yet healthcare stands out as the fastest learner, poised for a 17.10% CAGR through 2030.

Pharmaceutical firms simulate molecular interactions in silico to cut early-stage failures, while med-tech developers employ patient-specific models to verify implant fit and longevity. Regulatory bodies now accept virtual cohorts to augment clinical evidence, shaving months from approval cycles and spotlighting the simulation software market size benefits for life-science innovators. Aerospace and defense keep steady investment in multi-physics solvers for next-generation airframes, whereas electronics groups intensify electromagnetic modeling for 5G antenna arrays and chip-package co-design. Energy majors adopt subsurface simulators to optimize carbon-capture wells and hydrogen storage, aligning with decarbonization targets.

Simulation Software Market is Segmented by Deployment (On-Premises, and More), End-User Industry (Automotive, IT and More), Simulation Type (Finite-Element Analysis (FEA) and More), Application Area (Product Design & Engineering and More), Component (Software Licenses and More) and by Geography. The Market Forecasts are Provided in Terms of Value (USD).

Geography Analysis

North America maintained 38% of simulation software market share in 2024 on the back of mature aerospace, defense, and automotive ecosystems. Federal research grants seeded advanced solvers decades ago, and the presence of big-tech cloud providers accelerates AI-driven functionality today. Broad adoption of subscription models streamlines budgets and shortens procurement cycles. The region still contends with tightening labor pools that limit scaling programs, causing firms to outsource specialized tasks offshore when security rules permit.

Europe leverages a strong automotive base and sustainability-focused regulations to stimulate adoption. Stringent carbon policies encourage virtual exhaust testing, and electric-vehicle incentives channel funds into battery and thermal simulations. Industry 4.0 frameworks such as Germany's Plattform Industrie 4.0 foster public-private pilots that demonstrate tangible ROI, nurturing demand within the simulation software market. Skills shortages emerge in high-end multiphysics roles, prompting cross-border academies to update curricula around model-based engineering.

Asia-Pacific posts the fastest 14.80% CAGR through 2030 thanks to manufacturing scale-up and government digitalization roadmaps. China sponsors smart-city pilots requiring urban-scale energy and traffic models, while India's electronics push drives chip-package simulations. Southeast Asian nations court foreign investment with tax breaks on digital R&D infrastructure, spurring local adoption of cloud-hosted platforms. Intellectual-property protection remains a consideration, so multinationals often start with non-sensitive workloads when entering the simulation software market. Domestic vendors emphasize cost-effective offerings tailored to medium enterprises, further expanding the regional user base.

1. Ansys Inc.
2. Dassault Systmes SE
3. Siemens Digital Industries Software
4. Altair Engineering Inc.
5. Autodesk Inc.
6. Hexagon AB (MSC Software)
7. MathWorks Inc.
8. PTC Inc.
9. Synopsys Inc.
10. ESI Group SA
11. CPFD Software LLC
12. Rockwell Automation (ARENA)
13. Bentley Systems Inc.
14. Simio LLC
15. Lanner Group Ltd
16. SIMUL8 Corporation
17. Flow Science Inc.
18. COMSOL Inc.
19. Schneider Electric (SE Electromechanical)
20. SolidWorks Corporation

Additional Benefits:

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

TABLE OF CONTENTS

1 INTRODUCTION

• 1.1 Study Assumptions and Market Definition
• 1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET LANDSCAPE

• 4.1 Market Overview
• 4.2 Market Drivers
  • 4.2.1 Rising cloud-native simulation adoption
  • 4.2.2 Automotive demand for virtual validation
  • 4.2.3 Rapid uptake of digital-twin initiatives
  • 4.2.4 AI-driven generative simulation workflows
  • 4.2.5 ESG-mandated virtual sustainability assessments
  • 4.2.6 5G/ORAN network-function virtualization testing
• 4.3 Market Restraints
  • 4.3.1 High total cost of ownership for HPC
  • 4.3.2 Data-interoperability and standards gaps
  • 4.3.3 IP-security concerns in cloud outsourcing
  • 4.3.4 Scarcity of vertical-domain simulation talent
• 4.4 Value / Supply-Chain Analysis
• 4.5 Regulatory Landscape
• 4.6 Technological Outlook
• 4.7 Porters Five Forces Analysis
  • 4.7.1 Threat of New Entrants
  • 4.7.2 Bargaining Power of Buyers
  • 4.7.3 Bargaining Power of Suppliers
  • 4.7.4 Threat of Substitutes
  • 4.7.5 Intensity of Competitive Rivalry

5 MARKET SIZE AND GROWTH FORECASTS (VALUE)

• 5.1 By Deployment Type
  • 5.1.1 On-premise
  • 5.1.2 Cloud / SaaS
• 5.2 By End-user Industry
  • 5.2.1 Automotive
  • 5.2.2 Aerospace and Defense
  • 5.2.3 Electrical and Electronics
  • 5.2.4 Energy, Oil and Mining
  • 5.2.5 IT and Telecom
  • 5.2.6 Healthcare and Life Sciences
  • 5.2.7 Education and Research
  • 5.2.8 Others
• 5.3 By Simulation Type
  • 5.3.1 Finite-Element Analysis (FEA)
  • 5.3.2 Computational Fluid Dynamics (CFD)
  • 5.3.3 Multibody and Dynamics
  • 5.3.4 Discrete-Event and Process Simulation
  • 5.3.5 Electromagnetic and RF
  • 5.3.6 System-level and 1-D
• 5.4 By Application Area
  • 5.4.1 Product Design and Engineering
  • 5.4.2 Research and Development / Innovation
  • 5.4.3 Process and Operations Optimization
  • 5.4.4 Training, Safety and Digital Mock-up
  • 5.4.5 Digital Twin Lifecycle Management
• 5.5 By Component
  • 5.5.1 Software Licenses
  • 5.5.2 Services and Consulting
  • 5.5.3 Platform and Integration
• 5.6 By Geography
  • 5.6.1 North America
    • 5.6.1.1 United States
    • 5.6.1.2 Canada
    • 5.6.1.3 Mexico
  • 5.6.2 South America
    • 5.6.2.1 Brazil
    • 5.6.2.2 Argentina
    • 5.6.2.3 Rest of South America
  • 5.6.3 Europe
    • 5.6.3.1 Germany
    • 5.6.3.2 United Kingdom
    • 5.6.3.3 France
    • 5.6.3.4 Italy
    • 5.6.3.5 Russia
    • 5.6.3.6 Rest of Europe
  • 5.6.4 APAC
    • 5.6.4.1 China
    • 5.6.4.2 Japan
    • 5.6.4.3 India
    • 5.6.4.4 South Korea
    • 5.6.4.5 ASEAN
    • 5.6.4.6 Rest of APAC
  • 5.6.5 Middle East and Africa
    • 5.6.5.1 GCC
    • 5.6.5.2 Turkey
    • 5.6.5.3 South Africa
    • 5.6.5.4 Rest of Middle East and Africa

6 COMPETITIVE LANDSCAPE

• 6.1 Market Concentration
• 6.2 Strategic Moves
• 6.3 Market Share Analysis
• 6.4 Company Profiles (Includes Global level Overview, Market level overview, Core Segments, Financials as available, Strategic Information, Market Rank/Share for key companies, Products & Services, and Recent Developments)
  • 6.4.1 Ansys Inc.
  • 6.4.2 Dassault Systmes SE
  • 6.4.3 Siemens Digital Industries Software
  • 6.4.4 Altair Engineering Inc.
  • 6.4.5 Autodesk Inc.
  • 6.4.6 Hexagon AB (MSC Software)
  • 6.4.7 MathWorks Inc.
  • 6.4.8 PTC Inc.
  • 6.4.9 Synopsys Inc.
  • 6.4.10 ESI Group SA
  • 6.4.11 CPFD Software LLC
  • 6.4.12 Rockwell Automation (ARENA)
  • 6.4.13 Bentley Systems Inc.
  • 6.4.14 Simio LLC
  • 6.4.15 Lanner Group Ltd
  • 6.4.16 SIMUL8 Corporation
  • 6.4.17 Flow Science Inc.
  • 6.4.18 COMSOL Inc.
  • 6.4.19 Schneider Electric (SE Electromechanical)
  • 6.4.20 SolidWorks Corporation

7 MARKET OPPORTUNITIES AND FUTURE OUTLOOK

• 7.1 White-space and Unmet-need Assessment