[Research Report] The photonic design automation market size was valued at US$ 1.39 billion in 2022 and is expected to reach US$ 3.90 billion by 2030; it is estimated to record a CAGR of 13.8% from 2022 to 2030.
Photonic Design Automation Market Analyst Perspective:
The integration of photonics into electronic design automation (EDA) tools is a significant trend in the photonic design automation market. Established EDA vendors recognize the potential of the emerging photonics market and incorporate photonics-specific features and capabilities into their existing tools. This integration enables designers to seamlessly incorporate photonics components into their designs, streamlining the design process and optimizing the performance and functionality of photonic devices. By integrating photonics into EDA tools, designers can leverage familiar design environments and workflows, reducing the learning curve associated with specialized photonic design tools. The integration of photonics into EDA tools also facilitates the convergence of electronics and photonics, enabling the development of integrated electronic-photonic circuits. This convergence is crucial for the advancement of technologies such as silicon photonics, where the sharing of tools, processes, and simulation models between photonics and IC design accelerates the development of photonic design automation. Overall, the integration of photonics into EDA tools reflects the industry's recognition of the growing importance of photonics and the need for efficient design processes and optimization techniques in the photonic field. It enables designers to harness the potential of photonics and seamlessly incorporate it into their electronic designs.
Photonic Design Automation Market Overview:
The global photonic design automation market is undergoing substantial growth and is estimated to continue expanding in the coming years. Advancements in compact modeling and simulation tools are expected to have a significant impact on the photonic design automation market. These tools play a crucial role in the convergence of electronics and photonics, enabling faster and more efficient design processes. Compact modeling refers to the development of simplified mathematical models that precisely denote the behavior of complex photonic devices. These models allow designers to simulate and analyze the performance of photonic components without the need for expensive and time-consuming device-level simulations. By incorporating compact modeling into design automation tools, designers can streamline the design process and optimize the performance of integrated electronic-photonic circuits. These tools facilitate the transition from electronic-photonic co-design to the development of fully integrated circuits, enabling designers to achieve high performance and efficiency.
The integration of compact modeling and simulation tools into the photonic design automation workflow enables designers to explore different design options, evaluate the impact of various parameters, and make informed decisions. This leads to faster design iterations, reduced time-to-market, and improved overall design quality. The importance of compact modeling and simulation tools in the photonic design automation market is recognized by both industry and academia. Established electronic design automation vendors are incorporating photonics-specific features and capabilities into their existing tools, allowing designers to integrate photonics components into their designs seamlessly.
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Photonic Design Automation Market: Strategic Insights
Market Size Value in US$ 1.39 billion in 2022 Market Size Value by US$ 3.90 billion by 2030 Growth rate CAGR of 13.8% from 2022 to 2030 Forecast Period 2022-2030 Base Year 2022
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Photonic Design Automation Market: Strategic Insights
| Market Size Value in | US$ 1.39 billion in 2022 |
| Market Size Value by | US$ 3.90 billion by 2030 |
| Growth rate | CAGR of 13.8% from 2022 to 2030 |
| Forecast Period | 2022-2030 |
| Base Year | 2022 |
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Photonic Design Automation Market Driver:
Increasing Need for Efficiency and Accuracy Fuels Photonic Design Automation Market Growth
The complexity involved in designing photonic devices and systems has created a need for efficiency and accuracy in the design process. To address this need, photonic design automation has emerged, providing designers with specialized software tools and automation steps. Photonic design automation (PDA) encompasses a range of software tools and methodologies that assist designers in creating schematics, layouts, and other design elements required for photonic devices and systems. These tools leverage automation techniques to streamline and optimize the design process, enabling designers to achieve higher levels of precision and productivity. One of the primary reasons for using photonic design automation tools is to ensure accuracy. Photonic devices often involve intricate designs and the manipulation of light at the nanoscale. Manual design processes can be prone to human errors, which can have a substantial effect on the functionality and execution of the final product. With the aid of automation tools, designers can decrease the risk of errors and ensure that their designs meet the desired specifications.
Efficiency is another crucial aspect addressed by photonic design automation. The design of complex photonic systems requires numerous iterations and optimizations. Automation tools facilitate efficient exploration of the design space by automating repetitive tasks and providing simulation capabilities. By automating these processes, designers can save time, increase productivity, and achieve faster time-to-market for their products. Moreover, photonic design automation tools offer features such as design rule checks, layout generation, and optimization algorithms. These capabilities help designers enhance the performance, manufacturability, and reliability of photonic devices. By automating these steps, designers can focus more on the creative aspects of the design and rely on the software tools to handle the repetitive and time-consuming tasks. Such trends and advantages drive the photonic design automation market.
Photonic Design Automation Market Segmental Analysis:
The global photonic design automation market is segmented based on component, deployment, organization size, and application. Based on component, the photonic design automation market is divided into solutions and services. In terms of deployment, the photonic design automation market is bifurcated into on-premise and cloud. By organization size, the photonic design automation market is bifurcated into SMEs and large enterprises. Based on application, the photonic design automation market is divided into academic research and industrial research & manufacturing. By geography, the photonic design automation market is segmented into North America, Europe, Asia Pacific (APAC), and Rest of the World (RoW).
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The solution segment of the photonic design automation market encompasses a variety of software and tools that facilitate the design, simulation, and verification of photonic integrated circuits (PICs) and other photonic devices. These solutions are purpose-built to address the distinctive challenges and needs of the photonics industry. Photonic design automation (PDA) tools are instrumental in expediting the development and enhancement of photonic devices by equipping designers with advanced capabilities for simulation, modeling, and analysis. These tools enable designers to effectively create and validate intricate photonic circuits, optimize performance, and ensure efficient production processes. Software tools that enable designers to create and lay out photonic circuits have components such as waveguides, modulators, detectors, and filters. These tools often provide a user-friendly interface and advanced design capabilities to streamline the design process. The photonic design automation market is driven by the growing demand for photonic devices in various applications, including telecommunications, data centers, healthcare, sensing, and imaging. As the photonics industry continues to evolve and expand, the need for efficient and reliable design tools becomes increasingly important.
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Photonic Design Automation Market Regional Analysis:
The APAC photonic design automation market was valued at US$ 0.46 billion in 2022 and is projected to reach US$ 1.42 billion by 2030; it is expected to register a CAGR of 15.2% during 2022–2030. The APAC photonic design automation market is segmented into Japan, China, South Korea, Taiwan, and the Rest of Asia Pacific. Asia Pacific is a significant player in the photonic design automation market, characterized by its rapid growth and technological advancements. With a strong emphasis on innovation and a thriving semiconductor industry, the region has become a hub for cutting-edge photonics technologies. One of the major factors driving the Asia Pacific photonic design automation market is the region's dominance in the semiconductor industry. Countries in APAC, such as China, South Korea, and Taiwan, have emerged as global leaders in semiconductor manufacturing and chip design. This dominance in the semiconductor supply chain provides a strong foundation for the development and adoption of photonic design automation technologies.
Asia Pacific also boasts a large and growing market for photonic design automation solutions. Various industries, including telecommunications, healthcare, consumer electronics, and automotive, drive the demand for these solutions. The increasing adoption of photonics technologies in these sectors fuels the growth of the photonic design automation market in the region. Furthermore, government initiatives and policies are crucial in promoting the development and adoption of photonic design automation technologies in Asia Pacific. Governments in countries such as Japan, China, and South Korea have implemented strategic plans and funding programs to support the growth of the photonics industry. These initiatives aim to enhance research capabilities, foster collaboration between academia and industry, and create a favorable environment for innovation and entrepreneurship.
Photonic Design Automation Market Key Player Analysis:
AIM Photonics Inc, Ansys Inc, Cadence Design Systems Inc, LioniX International BV, Luceda Photonics, Optiwave Systems Inc, Siemens AG, Synopsys Inc, SystemLab Inc, and VPlphotonics GmbH are among the key photonic design automation market players. Several other major companies have been analyzed during this research study to get a holistic view of the photonic design automation market ecosystem.
Photonic Design Automation Market Recent Developments:
The photonic design automation market players highly adopt inorganic and organic strategies. Following are a few major photonic design automation market developments:
- In January 2023, Luceda Photonics—a leading design software and service provider for photonic integrated circuits (PICs)—and Spark Photonics, a US-based PIC design service provider, partnered to boost presence for North American customers and enhance the level of support and services.
- In April 2022, Synopsys Inc and Juniper Networks announced the creation of a new, separate company to provide the industry with an open silicon photonics platform to address the growing photonic requirements in applications such as telecom, datacom, LiDAR, healthcare, high-performance computing (HPC), artificial intelligence (AI), and optical computing.
Report Coverage
Revenue forecast, Company Analysis, Industry landscape, Growth factors, and Trends
Segment Covered
Component, Deployment, Organization Size, and Application
Regional Scope
North America, Europe, Asia Pacific, Middle East & Africa, South & Central America
Country Scope
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to country scope.
Frequently Asked Questions
The photonic design automation market is expected to reach US$ 3.90 million by 2030.
The solution segment held largest market share in 2022 and it is expected to grow with the highest CAGR during the forecast period 2023-2030.
Asia Pacific is anticipated to grow with the highest CAGR over the forecast period.
The North America held the largest market share in 2022, followed by Asia Pacific and Europe.
The key players, holding majority shares, in photonic design automation market includes Ansys Inc, Cadence Design Systems Inc, Optiwave Systems Inc, Siemens AG, and Synopsys Inc.
Integration of photonics in electronic design automation (EDA) tools is the future trend of the photonic design automation market.
Factors such as growing demand for automation and increasing need for efficiency and accuracy are the driving the photonic design automation market growth.
The photonic design automation market was valued at US$ 1.39 billion in 2022 and is expected to grow at a CAGR of 13.8% during 2022–2030.
1. Introduction
1.1 The Insight Partners Research Report Guidance
1.2 Market Segmentation
2. Executive Summary
2.1 Key Insights
2.2 Market Attractiveness
3. Research Methodology
3.1 Coverage
3.2 Secondary Research
3.3 Primary Research
4. Photonic Design Automation Market Landscape
4.1 Overview
4.2 PEST Analysis
4.3 Ecosystem Analysis
4.3.1 List of Vendors in the Value Chain:
5. Photonic Design Automation Market - Key Market Dynamics
5.1 Photonic Design Automation Market - Key Market Dynamics
5.2 Market Drivers
5.2.1 Growing Demand for Automation
5.2.2 Increasing Need for Efficiency and Accuracy
5.3 Market Restraints
5.3.1 Lack of Awareness Regarding Benefits and Capabilities of Photonic Design Automation
5.4 Market Opportunities
5.4.1 Advancements in Photonic Devices
5.4.2 Emphasis on High Performance and Environmentally Sustainable Solutions
5.5 Future Trends
5.5.1 Integration of Photonics in Electronic Design Automation (EDA) Tools
5.5.2 Advancements in Compact Modelling and Simulation Tools
5.6 Impact of Drivers and Restraints:
6. Photonic Design Automation Market - Global Market Analysis
6.1 Photonic Design Automation Market Revenue (US$ Million), 2022 – 2030
6.2 Photonic Design Automation Market Forecast and Analysis
7. Photonic Design Automation Market Analysis - Component
7.1 Solution
7.1.1 Overview
7.1.2 Solution Market, Revenue and Forecast to 2030 (US$ Million)
7.2 Service
7.2.1 Overview
7.2.2 Service Market, Revenue and Forecast to 2030 (US$ Million)
8. Photonic Design Automation Market Analysis - Deployment
8.1 On-Premise
8.1.1 Overview
8.1.2 On-Premise Market, Revenue and Forecast to 2030 (US$ Million)
8.2 Cloud
8.2.1 Overview
8.2.2 Cloud Market, Revenue and Forecast to 2030 (US$ Million)
9. Photonic Design Automation Market Analysis - Organization Size
9.1 SMEs
9.1.1 Overview
9.1.2 SMEs Market, Revenue and Forecast to 2030 (US$ Million)
9.2 Large Enterprises
9.2.1 Overview
9.2.2 Large Enterprises Market, Revenue and Forecast to 2030 (US$ Million)
10. Photonic Design Automation Market Analysis - Application
10.1 Academic Research
10.1.1 Overview
10.1.2 Academic Research Market, Revenue and Forecast to 2030 (US$ Million)
10.2 Industrial Research & Manufacturing
10.2.1 Overview
10.2.2 Industrial Research & Manufacturing Market, Revenue and Forecast to 2030 (US$ Million)
11. Photonic Design Automation Market - Geographical Analysis
11.1 Overview
11.2 North America
11.2.1 North America Photonic Design Automation Market Overview
11.2.2 North America Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.2.3 North America Photonic Design Automation Market Breakdown by Component
11.2.3.1 North America Photonic Design Automation Market Revenue and Forecasts and Analysis - By Component
11.2.4 North America Photonic Design Automation Market Breakdown by Deployment
11.2.4.1 North America Photonic Design Automation Market Revenue and Forecasts and Analysis - By Deployment
11.2.5 North America Photonic Design Automation Market Breakdown by Organization Size
11.2.5.1 North America Photonic Design Automation Market Revenue and Forecasts and Analysis - By Organization Size
11.2.6 North America Photonic Design Automation Market Breakdown by Application
11.2.6.1 North America Photonic Design Automation Market Revenue and Forecasts and Analysis - By Application
11.2.7 North America Photonic Design Automation Market Revenue and Forecasts and Analysis - By Country
11.2.7.1 North America Photonic Design Automation Market Revenue and Forecasts and Analysis - By Country
11.2.7.2 US Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.2.7.2.1 US Photonic Design Automation Market Breakdown, by Component
11.2.7.2.2 US Photonic Design Automation Market Breakdown, by Deployment
11.2.7.2.3 US Photonic Design Automation Market Breakdown, by Organization Size
11.2.7.2.4 US Photonic Design Automation Market Breakdown, by Application
11.2.7.3 Canada Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.2.7.3.1 Canada Photonic Design Automation Market Breakdown, by Component
11.2.7.3.2 Canada Photonic Design Automation Market Breakdown, by Deployment
11.2.7.3.3 Canada Photonic Design Automation Market Breakdown, by Organization Size
11.2.7.3.4 Canada Photonic Design Automation Market Breakdown, by Application
11.3 Europe
11.3.1 Europe Photonic Design Automation Market Overview
11.3.2 Europe Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.3.3 Europe Photonic Design Automation Market Breakdown by Component
11.3.3.1 Europe Photonic Design Automation Market Revenue and Forecasts and Analysis - By Component
11.3.4 Europe Photonic Design Automation Market Breakdown by Deployment
11.3.4.1 Europe Photonic Design Automation Market Revenue and Forecasts and Analysis - By Deployment
11.3.5 Europe Photonic Design Automation Market Breakdown by Organization Size
11.3.5.1 Europe Photonic Design Automation Market Revenue and Forecasts and Analysis - By Organization Size
11.3.6 Europe Photonic Design Automation Market Breakdown by Application
11.3.6.1 Europe Photonic Design Automation Market Revenue and Forecasts and Analysis - By Application
11.3.7 Europe Photonic Design Automation Market Revenue and Forecasts and Analysis - By Country
11.3.7.1 Europe Photonic Design Automation Market Revenue and Forecasts and Analysis - By Country
11.3.7.2 Germany Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.3.7.2.1 Germany Photonic Design Automation Market Breakdown, by Component
11.3.7.2.2 Germany Photonic Design Automation Market Breakdown, by Deployment
11.3.7.2.3 Germany Photonic Design Automation Market Breakdown, by Organization Size
11.3.7.2.4 Germany Photonic Design Automation Market Breakdown, by Application
11.3.7.3 France Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.3.7.3.1 France Photonic Design Automation Market Breakdown, by Component
11.3.7.3.2 France Photonic Design Automation Market Breakdown, by Deployment
11.3.7.3.3 France Photonic Design Automation Market Breakdown, by Organization Size
11.3.7.3.4 France Photonic Design Automation Market Breakdown, by Application
11.3.7.4 UK Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.3.7.4.1 UK Photonic Design Automation Market Breakdown, by Component
11.3.7.4.2 UK Photonic Design Automation Market Breakdown, by Deployment
11.3.7.4.3 UK Photonic Design Automation Market Breakdown, by Organization Size
11.3.7.4.4 UK Photonic Design Automation Market Breakdown, by Application
11.3.7.5 Russia Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.3.7.5.1 Russia Photonic Design Automation Market Breakdown, by Component
11.3.7.5.2 Russia Photonic Design Automation Market Breakdown, by Deployment
11.3.7.5.3 Russia Photonic Design Automation Market Breakdown, by Organization Size
11.3.7.5.4 Russia Photonic Design Automation Market Breakdown, by Application
11.3.7.6 Switzerland Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.3.7.6.1 Switzerland Photonic Design Automation Market Breakdown, by Component
11.3.7.6.2 Switzerland Photonic Design Automation Market Breakdown, by Deployment
11.3.7.6.3 Switzerland Photonic Design Automation Market Breakdown, by Organization Size
11.3.7.6.4 Switzerland Photonic Design Automation Market Breakdown, by Application
11.3.7.7 Rest of Europe Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.3.7.7.1 Rest of Europe Photonic Design Automation Market Breakdown, by Component
11.3.7.7.2 Rest of Europe Photonic Design Automation Market Breakdown, by Deployment
11.3.7.7.3 Rest of Europe Photonic Design Automation Market Breakdown, by Organization Size
11.3.7.7.4 Rest of Europe Photonic Design Automation Market Breakdown, by Application
11.4 APAC
11.4.1 APAC Photonic Design Automation Market Overview
11.4.2 APAC Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.4.3 APAC Photonic Design Automation Market Breakdown by Component
11.4.3.1 APAC Photonic Design Automation Market Revenue and Forecasts and Analysis - By Component
11.4.4 APAC Photonic Design Automation Market Breakdown by Deployment
11.4.4.1 APAC Photonic Design Automation Market Revenue and Forecasts and Analysis - By Deployment
11.4.5 APAC Photonic Design Automation Market Breakdown by Organization Size
11.4.5.1 APAC Photonic Design Automation Market Revenue and Forecasts and Analysis - By Organization Size
11.4.6 APAC Photonic Design Automation Market Breakdown by Application
11.4.6.1 APAC Photonic Design Automation Market Revenue and Forecasts and Analysis - By Application
11.4.7 APAC Photonic Design Automation Market Revenue and Forecasts and Analysis - By Country
11.4.7.1 APAC Photonic Design Automation Market Revenue and Forecasts and Analysis - By Country
11.4.7.2 China Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.4.7.2.1 China Photonic Design Automation Market Breakdown, by Component
11.4.7.2.2 China Photonic Design Automation Market Breakdown, by Deployment
11.4.7.2.3 China Photonic Design Automation Market Breakdown, by Organization Size
11.4.7.2.4 China Photonic Design Automation Market Breakdown, by Application
11.4.7.3 Japan Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.4.7.3.1 Japan Photonic Design Automation Market Breakdown, by Component
11.4.7.3.2 Japan Photonic Design Automation Market Breakdown, by Deployment
11.4.7.3.3 Japan Photonic Design Automation Market Breakdown, by Organization Size
11.4.7.3.4 Japan Photonic Design Automation Market Breakdown, by Application
11.4.7.4 South Korea Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.4.7.4.1 South Korea Photonic Design Automation Market Breakdown, by Component
11.4.7.4.2 South Korea Photonic Design Automation Market Breakdown, by Deployment
11.4.7.4.3 South Korea Photonic Design Automation Market Breakdown, by Organization Size
11.4.7.4.4 South Korea Photonic Design Automation Market Breakdown, by Application
11.4.7.5 Taiwan Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.4.7.5.1 Taiwan Photonic Design Automation Market Breakdown, by Component
11.4.7.5.2 Taiwan Photonic Design Automation Market Breakdown, by Deployment
11.4.7.5.3 Taiwan Photonic Design Automation Market Breakdown, by Organization Size
11.4.7.5.4 Taiwan Photonic Design Automation Market Breakdown, by Application
11.4.7.6 Rest of APAC Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.4.7.6.1 Rest of APAC Photonic Design Automation Market Breakdown, by Component
11.4.7.6.2 Rest of APAC Photonic Design Automation Market Breakdown, by Deployment
11.4.7.6.3 Rest of APAC Photonic Design Automation Market Breakdown, by Organization Size
11.4.7.6.4 Rest of APAC Photonic Design Automation Market Breakdown, by Application
11.5 Rest of the World (RoW)
11.5.1 RoW Photonic Design Automation Market Overview
11.5.2 RoW Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.5.3 RoW Photonic Design Automation Market Breakdown by Component
11.5.3.1 RoW Photonic Design Automation Market Revenue and Forecasts and Analysis - By Component
11.5.4 RoW Photonic Design Automation Market Breakdown by Deployment
11.5.4.1 RoW Photonic Design Automation Market Revenue and Forecasts and Analysis - By Deployment
11.5.5 RoW Photonic Design Automation Market Breakdown by Organization Size
11.5.5.1 RoW Photonic Design Automation Market Revenue and Forecasts and Analysis - By Organization Size
11.5.6 RoW Photonic Design Automation Market Breakdown by Application
11.5.6.1 RoW Photonic Design Automation Market Revenue and Forecasts and Analysis - By Application
11.5.7 RoW Photonic Design Automation Market Revenue and Forecasts and Analysis - By Region
11.5.7.1 RoW Photonic Design Automation Market Revenue and Forecasts and Analysis - By Region
11.5.7.2 MEA Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.5.7.2.1 MEA Photonic Design Automation Market Breakdown, by Component
11.5.7.2.2 MEA Photonic Design Automation Market Breakdown, by Deployment
11.5.7.2.3 MEA Photonic Design Automation Market Breakdown, by Organization Size
11.5.7.2.4 MEA Photonic Design Automation Market Breakdown, by Application
11.5.7.3 SAM Photonic Design Automation Market Revenue and Forecasts to 2030 (US$ Mn)
11.5.7.3.1 SAM Photonic Design Automation Market Breakdown, by Component
11.5.7.3.2 SAM Photonic Design Automation Market Breakdown, by Deployment
11.5.7.3.3 SAM Photonic Design Automation Market Breakdown, by Organization Size
11.5.7.3.4 SAM Photonic Design Automation Market Breakdown, by Application
12. Photonic Design Automation Market – Impact of COVID-19 Pandemic
12.1 Pre & Post Covid-19 Impact
13. Competitive Landscape
13.1 Heat Map Analysis By Key Players
13.2 Company Positioning & Concentration
14. Industry Landscape
14.1 Overview
14.2 Market Initiative
14.2 New Product Development
14.3 Merger and Acquisition
15. Company Profiles
15.1 Ansys Inc
15.1.1 Key Facts
15.1.2 Business Description
15.1.3 Products and Services
15.1.4 Financial Overview
15.1.5 SWOT Analysis
15.1.6 Key Developments
15.2 LioniX International BV
15.2.1 Key Facts
15.2.2 Business Description
15.2.3 Products and Services
15.2.4 Financial Overview
15.2.5 SWOT Analysis
15.2.6 Key Developments
15.3 VPlphotonics GmbH
15.3.1 Key Facts
15.3.2 Business Description
15.3.3 Products and Services
15.3.4 Financial Overview
15.3.5 SWOT Analysis
15.3.6 Key Developments
15.4 Optiwave Systems Inc
15.4.1 Key Facts
15.4.2 Business Description
15.4.3 Products and Services
15.4.4 Financial Overview
15.4.5 SWOT Analysis
15.4.6 Key Developments
15.5 Luceda Photonics
15.5.1 Key Facts
15.5.2 Business Description
15.5.3 Products and Services
15.5.4 Financial Overview
15.5.5 SWOT Analysis
15.5.6 Key Developments
15.6 Cadence Design Systems Inc
15.6.1 Key Facts
15.6.2 Business Description
15.6.3 Products and Services
15.6.4 Financial Overview
15.6.5 SWOT Analysis
15.6.6 Key Developments
15.7 Siemens AG
15.7.1 Key Facts
15.7.2 Business Description
15.7.3 Products and Services
15.7.4 Financial Overview
15.7.5 SWOT Analysis
15.7.6 Key Developments
15.8 Synopsys Inc
15.8.1 Key Facts
15.8.2 Business Description
15.8.3 Products and Services
15.8.4 Financial Overview
15.8.5 SWOT Analysis
15.8.6 Key Developments
15.9 AIM Photonics Inc
15.9.1 Key Facts
15.9.2 Business Description
15.9.3 Products and Services
15.9.4 Financial Overview
15.9.5 SWOT Analysis
15.9.6 Key Developments
15.10 SystemLab Inc
15.10.1 Key Facts
15.10.2 Business Description
15.10.3 Products and Services
15.10.4 Financial Overview
15.10.5 SWOT Analysis
15.10.6 Key Developments
16. Appendix
16.1 Word Index
List of Tables
Table 1. Photonic Design Automation Market Segmentation
Table 2. Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Million)
Table 3. Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Million) – Component
Table 4. Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Million) – Deployment
Table 5. Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Million) – Organization Size
Table 6. Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Million) – Application
Table 7. North America Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 8. North America Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 9. North America Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 10. North America Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 11. North America Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Country
Table 12. US Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 13. US Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 14. US Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 15. US Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 16. Canada Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 17. Canada Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 18. Canada Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 19. Canada Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 20. Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 21. Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 22. Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 23. Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 24. Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Country
Table 25. Germany Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 26. Germany Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 27. Germany Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 28. Germany Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 29. France Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 30. France Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 31. France Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 32. France Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 33. UK Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 34. UK Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 35. UK Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 36. UK Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 37. Russia Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 38. Russia Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 39. Russia Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 40. Russia Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 41. Switzerland Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 42. Switzerland Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 43. Switzerland Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 44. Switzerland Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 45. Rest of Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 46. Rest of Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 47. Rest of Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 48. Rest of Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 49. APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 50. APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 51. APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 52. APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 53. APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Country
Table 54. China Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 55. China Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 56. China Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 57. China Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 58. Japan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 59. Japan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 60. Japan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 61. Japan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 62. South Korea Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 63. South Korea Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 64. South Korea Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 65. South Korea Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 66. Taiwan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 67. Taiwan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 68. Taiwan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 69. Taiwan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 70. Rest of APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 71. Rest of APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 72. Rest of APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 73. Rest of APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 74. RoW Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 75. RoW Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 76. RoW Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 77. RoW Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 78. RoW Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Region
Table 79. MEA Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 80. MEA Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 81. MEA Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 82. MEA Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 83. SAM Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Component
Table 84. SAM Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Deployment
Table 85. SAM Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Organization Size
Table 86. SAM Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn) – By Application
Table 87. Heat Map Analysis By Key Players
Table 88. List of Abbreviation
List of Figures
Figure 1. Photonic Design Automation Market Segmentation, By Geography
Figure 2. PEST Analysis
Figure 3. Ecosystem: Photonic Design Automation Market
Figure 4. Impact Analysis of Drivers and Restraints
Figure 5. Photonic Design Automation Market Breakdown by Geography, 2022 and 2030 (%)
Figure 6. Photonic Design Automation Market Revenue (US$ Million), 2022 – 2030
Figure 7. Photonic Design Automation Market Share (%) – Component, 2022 and 2030
Figure 8. Solution Market Revenue and Forecasts To 2030 (US$ Million)
Figure 9. Service Market Revenue and Forecasts To 2030 (US$ Million)
Figure 10. Photonic Design Automation Market Share (%) – Deployment, 2022 and 2030
Figure 11. On-Premise Market Revenue and Forecasts To 2030 (US$ Million)
Figure 12. Cloud Market Revenue and Forecasts To 2030 (US$ Million)
Figure 13. Photonic Design Automation Market Share (%) – Organization Size, 2022 and 2030
Figure 14. SMEs Market Revenue and Forecasts To 2030 (US$ Million)
Figure 15. Large Enterprises Market Revenue and Forecasts To 2030 (US$ Million)
Figure 16. Photonic Design Automation Market Share (%) – Application, 2022 and 2030
Figure 17. Academic Research Market Revenue and Forecasts To 2030 (US$ Million)
Figure 18. Industrial Research & Manufacturing Market Revenue and Forecasts To 2030 (US$ Million)
Figure 19. Photonic Design Automation Market Breakdown by Region, 2022 and 2030 (%)
Figure 20. North America Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 21. North America Photonic Design Automation Market Breakdown by Component (2022 and 2030)
Figure 22. North America Photonic Design Automation Market Breakdown by Deployment (2022 and 2030)
Figure 23. North America Photonic Design Automation Market Breakdown by Organization Size (2022 and 2030)
Figure 24. North America Photonic Design Automation Market Breakdown by Application (2022 and 2030)
Figure 25. North America Photonic Design Automation Market Breakdown by Key Countries, 2022 and 2030 (%)
Figure 26. US Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 27. Canada Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 28. Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 29. Europe Photonic Design Automation Market Breakdown by Component (2022 and 2030)
Figure 30. Europe Photonic Design Automation Market Breakdown by Deployment (2022 and 2030)
Figure 31. Europe Photonic Design Automation Market Breakdown by Organization Size (2022 and 2030)
Figure 32. Europe Photonic Design Automation Market Breakdown by Application (2022 and 2030)
Figure 33. Europe Photonic Design Automation Market Breakdown by Key Countries, 2022 and 2030 (%)
Figure 34. Germany Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 35. France Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 36. UK Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 37. Russia Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 38. Switzerland Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 39. Rest of Europe Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 40. APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 41. APAC Photonic Design Automation Market Breakdown by Component (2022 and 2030)
Figure 42. APAC Photonic Design Automation Market Breakdown by Deployment (2022 and 2030)
Figure 43. APAC Photonic Design Automation Market Breakdown by Organization Size (2022 and 2030)
Figure 44. APAC Photonic Design Automation Market Breakdown by Application (2022 and 2030)
Figure 45. APAC Photonic Design Automation Market Breakdown by Key Countries, 2022 and 2030 (%)
Figure 46. China Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 47. Japan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 48. South Korea Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 49. Taiwan Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 50. Rest of APAC Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 51. RoW Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 52. RoW Photonic Design Automation Market Breakdown by Component (2022 and 2030)
Figure 53. RoW Photonic Design Automation Market Breakdown by Deployment (2022 and 2030)
Figure 54. RoW Photonic Design Automation Market Breakdown by Organization Size (2022 and 2030)
Figure 55. RoW Photonic Design Automation Market Breakdown by Application (2022 and 2030)
Figure 56. RoW Photonic Design Automation Market Breakdown by Key Regions, 2022 and 2030 (%)
Figure 57. MEA Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 58. SAM Photonic Design Automation Market Revenue and Forecasts To 2030 (US$ Mn)
Figure 59. Company Positioning & Concentration
The List of Companies - Photonic Design Automation Market
- AIM Photonics
- Ansys Inc
- Cadence Design Systems Inc
- LioniX International BV
- Luceda Photonics
- Optiwave Systems Inc
- Siemens AG
- Synopsys Inc
- SystemLab Inc
- VPIphotonics GmbH
The Insight Partners performs research in 4 major stages: Data Collection & Secondary Research, Primary Research, Data Analysis and Data Triangulation & Final Review.
- Data Collection and Secondary Research:
As a market research and consulting firm operating from a decade, we have published many reports and advised several clients across the globe. First step for any study will start with an assessment of currently available data and insights from existing reports. Further, historical and current market information is collected from Investor Presentations, Annual Reports, SEC Filings, etc., and other information related to company’s performance and market positioning are gathered from Paid Databases (Factiva, Hoovers, and Reuters) and various other publications available in public domain.
Several associations trade associates, technical forums, institutes, societies and organizations are accessed to gain technical as well as market related insights through their publications such as research papers, blogs and press releases related to the studies are referred to get cues about the market. Further, white papers, journals, magazines, and other news articles published in the last 3 years are scrutinized and analyzed to understand the current market trends.
- Primary Research:
The primarily interview analysis comprise of data obtained from industry participants interview and answers to survey questions gathered by in-house primary team.
For primary research, interviews are conducted with industry experts/CEOs/Marketing Managers/Sales Managers/VPs/Subject Matter Experts from both demand and supply side to get a 360-degree view of the market. The primary team conducts several interviews based on the complexity of the markets to understand the various market trends and dynamics which makes research more credible and precise.
A typical research interview fulfils the following functions:
- Provides first-hand information on the market size, market trends, growth trends, competitive landscape, and outlook
- Validates and strengthens in-house secondary research findings
- Develops the analysis team’s expertise and market understanding
Primary research involves email interactions and telephone interviews for each market, category, segment, and sub-segment across geographies. The participants who typically take part in such a process include, but are not limited to:
- Industry participants: VPs, business development managers, market intelligence managers and national sales managers
- Outside experts: Valuation experts, research analysts and key opinion leaders specializing in the electronics and semiconductor industry.
Below is the breakup of our primary respondents by company, designation, and region:
Once we receive the confirmation from primary research sources or primary respondents, we finalize the base year market estimation and forecast the data as per the macroeconomic and microeconomic factors assessed during data collection.
- Data Analysis:
Once data is validated through both secondary as well as primary respondents, we finalize the market estimations by hypothesis formulation and factor analysis at regional and country level.
- 3.1 Macro-Economic Factor Analysis:
We analyse macroeconomic indicators such the gross domestic product (GDP), increase in the demand for goods and services across industries, technological advancement, regional economic growth, governmental policies, the influence of COVID-19, PEST analysis, and other aspects. This analysis aids in setting benchmarks for various nations/regions and approximating market splits. Additionally, the general trend of the aforementioned components aid in determining the market's development possibilities.
- 3.2 Country Level Data:
Various factors that are especially aligned to the country are taken into account to determine the market size for a certain area and country, including the presence of vendors, such as headquarters and offices, the country's GDP, demand patterns, and industry growth. To comprehend the market dynamics for the nation, a number of growth variables, inhibitors, application areas, and current market trends are researched. The aforementioned elements aid in determining the country's overall market's growth potential.
- 3.3 Company Profile:
The “Table of Contents” is formulated by listing and analyzing more than 25 - 30 companies operating in the market ecosystem across geographies. However, we profile only 10 companies as a standard practice in our syndicate reports. These 10 companies comprise leading, emerging, and regional players. Nonetheless, our analysis is not restricted to the 10 listed companies, we also analyze other companies present in the market to develop a holistic view and understand the prevailing trends. The “Company Profiles” section in the report covers key facts, business description, products & services, financial information, SWOT analysis, and key developments. The financial information presented is extracted from the annual reports and official documents of the publicly listed companies. Upon collecting the information for the sections of respective companies, we verify them via various primary sources and then compile the data in respective company profiles. The company level information helps us in deriving the base number as well as in forecasting the market size.
- 3.4 Developing Base Number:
Aggregation of sales statistics (2020-2022) and macro-economic factor, and other secondary and primary research insights are utilized to arrive at base number and related market shares for 2022. The data gaps are identified in this step and relevant market data is analyzed, collected from paid primary interviews or databases. On finalizing the base year market size, forecasts are developed on the basis of macro-economic, industry and market growth factors and company level analysis.
- Data Triangulation and Final Review:
The market findings and base year market size calculations are validated from supply as well as demand side. Demand side validations are based on macro-economic factor analysis and benchmarks for respective regions and countries. In case of supply side validations, revenues of major companies are estimated (in case not available) based on industry benchmark, approximate number of employees, product portfolio, and primary interviews revenues are gathered. Further revenue from target product/service segment is assessed to avoid overshooting of market statistics. In case of heavy deviations between supply and demand side values, all thes steps are repeated to achieve synchronization.
We follow an iterative model, wherein we share our research findings with Subject Matter Experts (SME’s) and Key Opinion Leaders (KOLs) until consensus view of the market is not formulated – this model negates any drastic deviation in the opinions of experts. Only validated and universally acceptable research findings are quoted in our reports.
We have important check points that we use to validate our research findings – which we call – data triangulation, where we validate the information, we generate from secondary sources with primary interviews and then we re-validate with our internal data bases and Subject matter experts. This comprehensive model enables us to deliver high quality, reliable data in shortest possible time.
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