What is generative design and where is it used?
Posted: Sat Feb 01, 2025 5:30 am
In modern mechanics, there is nowhere without generative design: it helps to find solutions that are very difficult or even impossible to come up with, simplifies the optimization of existing structures and significantly saves time. What is generative design, where is it used, and how is it related to 3D printing, we will tell below.
enerative design is a team effort between a human and a computer. Typically, programs are used only as tools, but in generative design they are full participants in the creative process.
This does not mean that the program can do without human egypt number data participation - an experienced engineer should still work on the project.
Creating a solution using generative design is done like this:
The designer gives the program a technical task: lists constraints, marks obstacles and fasteners.
Based on these constraints, the program generates solution options (hence the name "generative design").
The person chooses the optimal option from the options offered by the program and, if necessary, refines it.
Generative design is an example of the synergy of a person and a computer program. Those who fear the development of technology due to the possible uprising of machines with artificial intelligence should take a closer look at this method. Here, programs do not compete with people for work, but help formulate intermediate solutions. Formulating a technical task, coming up with the initial idea of a project and bringing it to the ideal is a human privilege. Solutions made using generative design resemble natural forms, but are refined and completed. To users, the result of such an approach often seems bizarre in appearance. Despite this, generative design gives advantages to the project performer and creates a new aesthetic.
What makes generative design so good?
Generative design is used to design optimized objects. It allows you to take into account the properties of materials, the load on the product and other parameters without wasting time. Generative design gives the engineer a guarantee that based on the virtual prototype, parts can be immediately sent to production. In other approaches, to be sure of the validity of the prototype, it must be tested separately (Stress-strain analysis). Thus, generative design saves the designer time and the company money.
enerative design is a team effort between a human and a computer. Typically, programs are used only as tools, but in generative design they are full participants in the creative process.
This does not mean that the program can do without human egypt number data participation - an experienced engineer should still work on the project.
Creating a solution using generative design is done like this:
The designer gives the program a technical task: lists constraints, marks obstacles and fasteners.
Based on these constraints, the program generates solution options (hence the name "generative design").
The person chooses the optimal option from the options offered by the program and, if necessary, refines it.
Generative design is an example of the synergy of a person and a computer program. Those who fear the development of technology due to the possible uprising of machines with artificial intelligence should take a closer look at this method. Here, programs do not compete with people for work, but help formulate intermediate solutions. Formulating a technical task, coming up with the initial idea of a project and bringing it to the ideal is a human privilege. Solutions made using generative design resemble natural forms, but are refined and completed. To users, the result of such an approach often seems bizarre in appearance. Despite this, generative design gives advantages to the project performer and creates a new aesthetic.
What makes generative design so good?
Generative design is used to design optimized objects. It allows you to take into account the properties of materials, the load on the product and other parameters without wasting time. Generative design gives the engineer a guarantee that based on the virtual prototype, parts can be immediately sent to production. In other approaches, to be sure of the validity of the prototype, it must be tested separately (Stress-strain analysis). Thus, generative design saves the designer time and the company money.