Generative design is an innovative design approach that uses algorithms and computational processes to generate and evaluate multiple design options. It involves defining a set of design parameters, constraints, and goals, and then using computer software to generate, explore and evaluate thousands or even millions of possible designs that meet the specified criteria.
Generative design can be used in various fields, such as architecture, engineering, product design, and manufacturing, to optimize designs for cost, efficiency, and performance. It allows designers to explore a wide range of design possibilities and quickly iterate and refine their designs based on specific goals and constraints.
Generative design is often used in conjunction with 3D printing, where software-generated designs can be printed quickly and efficiently, allowing for rapid prototyping and testing. This approach enables designers to create complex and optimized designs that would be difficult or even impossible to achieve using traditional design methods.
The Global Generative Design Market was valued at 230.17 million USD in 2022, it is projected to reach 1009.65 million USD by 2030 with a CAGR of 20.3% in the forecast period of 2023-2030. The generative design market has been growing rapidly in recent years, and there are several drivers behind this growth. Here are some of the key market drivers for generative design:
Increased Efficiency and Productivity: Generative design can help designers and engineers quickly generate and evaluate multiple design options, leading to increased efficiency and productivity. This approach allows designers to explore a wider range of design possibilities and quickly iterate on designs to find the best solution.
Cost Reduction: Generative design can help reduce costs by optimizing designs for material usage and reducing waste. This approach can also reduce the need for expensive prototyping and testing, as the software-generated designs can be tested virtually before being manufactured.
Improved Performance and Sustainability: Generative design can help improve the performance of products by optimizing designs for specific performance goals. This approach can also help reduce the environmental impact of products by optimizing designs for sustainability.
Advancements in Technology: Advancements in technology, such as cloud computing, artificial intelligence, and machine learning, have made the generative design more accessible and affordable. This has led to the development of new software tools and platforms that enable designers to easily implement generative design into their workflows.
Growing Demand for Customization: As consumers demand more personalized and customized products, generative design can help companies quickly and efficiently produce customized products. This approach can also help companies differentiate themselves from their competitors by offering unique and innovative products.
Altair Engineering Inc., Dassault Systèmes SE, Bentley Systems Inc., Caracol AM, Autodesk Inc., MSC Software Corporation (Hexagon AB), Diabatix, ANSYS Inc., Paramatters, Desktop Metal Inc., and nTopology Inc. are significant market participants in the global generative design industry.
May 2022: Bentley Systems, Inc.'s board of directors approved the BSY Stock Repurchase Programme today, allowing the company to buy back up to $200 million of BSY Class B Common Stock through June 30, 2024. Bentley Systems, Inc. develops infrastructure engineering software.
May 2022: In order to create the first-ever end-to-end toolchain for developing and certifying ADAS and automated/autonomous driving features that are primarily guided by safety principles, Ansys and the BMW Group are extending their collaboration. As part of this partnership, the BMW Group is utilizing Ansys' capabilities to become one of the first automakers to provide consumers with Level 3 (L3) highly autonomous driving. In order to speed up the time to market, the alliance is essential for tackling the dependability issues with ADAS and autonomous vehicle (AV) systems.
Based on deployment type the market is divided into on-premises and cloud deployments. The general design market's major shareholder was the on-premises deployment. On-site servers and clients' personal computers frequently have on-premise software installed on them. Although cloud installations are expected to grow significantly over the next several years, on-premise deployments still hold a sizable portion of the market. Businesses can better manage risks and adhere to external compliance standards by using generative design software on-premise, which provides them control over their data, business processes, and internal rules.
Due to the best forms and capacities of these items, the software category is most likely to dominate the market based on component kinds. A growing trend in the market is software that drastically reduces manufacturing time while drastically changing the job of designers. The demand for software used in construction design is expected to increase over the coming years.
Because Al-led designs by architects and engineers have become more and more popular, the product design and development segment has held the majority share in the evaluation period based on the use of generative design software. Based on the restrictions on weights, materials, and cost, autosuggestions for designs may be available. The program enables filtration and aids producers in accelerating the procedure.
The European automotive sector has established an important position in the global industry. It has achieved record sales and as a significant employer and a source of considerable grant-making, it is an integral part of European society. Due to the presence of several global automotive OEMs, 3D printing technology for design formulation and applications in the automotive industry is widely implemented in Europe. Leading automotive industry leaders such as Mercedes, Audi, BMW, Jaguar, Land Rover, and Volkswagen have created potential space for 3D technology and printers in the European market.
The market for generative design software is predicted to have significant growth prospects in North America. The region's technological improvements combined with a well-developed IT infrastructure allow the market's producers to develop innovations and upgrade their product lines. It is anticipated that the adoption rate of these devices would increase as more people become aware of the software and the advantages it offers. In addition, a high concentration of significant competitors in this area and their streamlined distribution networks are anticipated to offer the North American market chances for sustained expansion in the years to come.
The generative design market is growing rapidly, driven by the need for increased efficiency and productivity, cost reduction, improved performance and sustainability, advancements in technology, and growing demand for customization. Generative design is enabling designers and engineers to explore a wide range of design possibilities and quickly iterate and refine their designs based on specific goals and constraints. With the continued growth and innovation in this field, we can expect to see generative design become even more accessible and affordable, and play an increasingly important role in various industries, including architecture, engineering, product design, and manufacturing.