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How to Get Started with Generative Design

Generative design has made its way into AEC software and you can see the benefits right out of your reach. Find out how you can get your design firm bought into using this technology. 

AEC software is undergoing a time of powerful transition. Architects are pushing the boundaries of design using a new technology called generative design (GD), which uses artificial intelligence (AI) to explore thousands of design possibilities in the time a human being can explore one. For firms striving to compete more effectively, this capability offers a path to creating better designs faster — but adopting any new technology poses challenges that can seem overwhelming. 

 

To make those challenges less daunting, begin by considering the implementation fundamentals — your goals, project approval, training, and hardware — to get a clearer idea of how you can start using GD in your firm. 

Start with the End in Sight

Ensure that you’re building your project on a realistic foundation by defining, as specifically as possible, what benefits you expect to achieve from implementing GD. Ask yourself how GD might affect different components of your business: clients, competitors, areas of specialization, etc. For example, will implementing GD affect how much work you can handle, enable you take on a new type of client, or give you an advantage over competitors who aren’t using the technology? Wherever possible, try to attach numerical estimates to these answers — percentages, hours, and dollars will be much more useful than “more” or “a lot” when it comes time to discuss this investment with management.

Gain Approval with Inclusion and Education

Getting buy-in from all stakeholders is key to a successful introduction of GD, as it is for any new disruptive technology. End users should feel that their needs and interests have been taken into consideration. Senior management needs to understand the value proposition. Taking the time to quantify how much time can be saved performing specific key tasks with the help of GD, can go a long way toward gaining the support of all involved. Read for more on how to gain management’s support.

 

Keep in mind that in addition to gaining approval from decision makers within your company to implement new software, hardware, and workflows, you may also need to get another kind of approval — from your clients. Those who are not used to seeing the organic shapes and patterns sometimes created by GD may need some education as to why they look the way they do. Reach out to your clients to explain how the new technology can yield more optimal designs, more quickly than ever before — making your firm the ideal partner to help them achieve their project goals. 

Get Up to Speed with GD

Once you have buy-in from all the groups in your firm that will be affected, turn your attention to determining training needs. 

 

There are multiple GD solutions on the market, but before you buy one, take a close look at your existing software. Your firm likely already uses Autodesk Revit, Bentley MicroStation, or McNeel & Associates Rhino and Grasshopper — which are the best-known software applications that have GD capabilities.

 

If you have no hard deadline for implementation, users who are already skilled on the general use of the software can explore the GD capabilities and gradually become familiar with how they work. In contrast, if your team is seeking to implement GD into production workflows as soon as possible, the most expedient option is to undergo training specific to GD capabilities; your software vendor can advise you about training options. There are online courses, both free and as part of a larger license or subscription. Generally these are offered on-demand. The Autodesk ecosystem in particular offers classes from resellers, from companies that specialize in training, and from their regional and global conferences. No matter which platform you use, YouTube is also a great source for ad hoc training. 

 

Firms new to GD often start with small projects, such as a visible partition or an office floor plan. The experience will pave the way for eventually integrating GD into all parts of the project. Using GD tools on a small portion of a larger project does not break the BIM workflow.

Where to Begin?

Use YouTube to get started quickly. 
Here are just a few to jumpstart your GD knowledge base.

Evaluate Hardware and Explore Options

GD and the other new software and data forms driving AEC innovation may enable dramatic results, but they also place intense performance demands on computers. Desktop computers purchased  GD into all parts of the project. Using GD tools on a small portion of a larger project does not break the BIM workflow. for drafting may not be suitable for these new technologies. GD recalculates algorithms hundreds of thousands of times; how fast they run depends on computer performance. 

 

Make sure your workstation can handle the increased computational workload of GD technology. A computer that has hit its limit and works, but with long delays, creates a workflow bottleneck. Initial use of GD on small projects will also help your team discern if any computers in the firm need to be upgraded. The bottom line is that if a computer’s performance is sluggish when running GD software, it should be upgraded or replaced. Read The Right Technology Solution for Generative Design for more on your technology needs. 

The Next Steps

Innovation is a journey as much as it is a decision. Taking advantage of generative design is no different. With a plan in place – including upgraded workstations as needed – you can turn enthusiasm for a new disruptive technology into a practical workflow improvement.

Recommended Rig for Generative Design

To carry out GD tasks using such tools as Rhino Grasshopper, Project Refinery, and Generative Design for Revit, Z by HP recommends the:

Z4 Desktop with

 

 • Intel® Core™ i9 processor with 12 cores

 • NVIDIA RTXTM A5000 graphics

 • 1TB NVMe storage up to 64GB of memory

Click here to learn more

ZBook Studio with

 

 • Intel® Core™ i7 processor with 6 cores

 • NVIDIA RTXTM A5000 laptop graphics

 • 1TB NVMe storage up to 32GB of memory

Click here to learn more

» Image source (front page): Robert McNeel & Associates’ Rhino® Grasshopper® generative design tool helped global architecture firm Gensler resolve the splitparabolic curve of the Shanghai tower.

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  1. The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein.

     

    Intel, the Intel logo, Core and Xeon are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries. Microsoft and Windows are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. NVIDIA and Quadro are trademarks and/or registered trademarks of NVIDIA Corporation in the U.S. and other countries. Linux® is the registered trademark of Linus Torvalds in the U.S. and other countries. AMD is a trademark of Advanced Micro Devices, Inc.

  2. This whitepaper was written and developed by the editors of Cadalyst, the leading publication covering computer-aided design and related software and hardware technologies for the AEC, civil engineering, and manufacturing markets. HP and all other trademarks mentioned herein are property of their respective owners. ©2021 Longitude Media, LLC. Reproduction in whole or in part is strictly prohibited without written permission of the publisher.

     

    4AA8-0108ENW, June 2021