When we think about human history, there is an endless study into the living habits, social interaction, community building systems, and a search for a sense of meaning across different cultures irrespective of civilization settling in or not. There has always been the innate understanding of patterns and how they influence lives and society to derive scientific structures for human advancement in all aspects concerning life and such a decisive system is not of the modern times alone.
In architecture too, the observing and analyzing of patterns to arrive at conscious modules for sustaining a socio-economically prospering civilization has birthed the subject of Computational Design in architecture.
Computers have become allies for architects to develop structures, building codes, and envisioning designs, whether it is for 3D modeling or creating program spreadsheets. So, with advanced tools, naturally, the idea is to keep on evolving by using these tools to create breakthroughs in architecture and cause ripples in the achievements of human history.
So, what is Computational Design in architecture?
The use of computational strategies to amplify the design process is what is Computational Design in architecture. The creative process of designers has traditionally been about tapping into their intuition or recognizing patterns in the environment and experiences to solve design problems. And Computational Design software intends to further innovate and advance this process by encoding design decisions with the use of a computer language. The Computational Design definition is all-encompassing, from design generation to task automation, which it utilizes with the application of a visual programming tool.
Enters Rhino Grasshopper in architecture.
Rhino and Grasshopper prepare you to understand the importance of visual-thinking and applications in architecture. Rhino 3D is an immaculate software for architecture modeling as it deals with architectural complexities. And Grasshopper architecture software deals with the limitations in terms of usability and function of Rhino. Grasshopper architecture software is an algorithmic modeling tool for Rhino and is arguably the most popular computational design software.
So, now, we come to the pertinent question of why you should learn Computational Design course and Grasshopper in architecture.
Firstly, you get to explore an array of design options.
You can encode your architectural style’s standard design into a visual program and generate a multitude of options all meeting your work’s specified criteria. And this allows you to spend your design time on more intriguing parts of the structure you are building.
Secondly, it helps you use your time efficiently while you can automate repetitive tasks.
Tools such as Grasshopper in architecture, since they work with the application programming interface of the software, can even be used to automate repetitive tasks such as renaming or copying elements or views.
Thirdly, you can evaluate design with ease.
Isn’t it a rather uncomfortable thought to be able to realize that your design has not incorporated all the criteria it was meant to fulfil AFTER the whole building has been constructed? So, it is only better that you get to evaluate as well as fix any issues arising while you are designing it. A computation Design course, therefore, helps you identify which design performs efficiently and allows you more time to perform detailed simulations on the optimized design.
Fourthly, you get to use your left brain and right brain skills cumulatively.
As mentioned above, creative thinkers and designers tend to use their intuitive abilities to solve a design problem based on their experiences. But the Computational Design definition enables you to encode this intuition by thinking logically as your design becomes a set of steps that can be evaluated and improved considering all the inputs and outputs to arrive at a formidable design structure and fix issues that may arise in the process using Rhino and Grasshopper in architecture as the tools of the future.
Thus, it must be clear why the use of modern tools has helped architecture evolve as a confluence of artistic imagination and scientific modules to reshape the prowess of the human potential with the help of AI. At ‘Parametrized’ and ‘AI Urbanised’ workshops conducted by Equim, we expose you to the tools of the future which are paramount to equip architecture with problem-solving abilities and steer you into becoming the architect of the future. You learn through a precise and comprehensible curriculum and get to work in groups that help you assimilate your thoughts and ideas with various others as you learn the process of creative integration under the mentorship of experts in the industry. Moreover, there are doubt clearing sessions meant to help you find answers to your queries so that there may be no pause to your takeaways from these workshops.
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