Integrated Design 101: Difference between revisions
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*[[OSE Specifications]] | *[[OSE Specifications]] | ||
*[[Breaking the Iron Triangle]] | *[[Breaking the Iron Triangle]] | ||
=Lesson 1: Transforming Design= | |||
*Design is carried out by proprietary teams competing for a share of the pie. The new paradigm involves enlargement of the pie by everyone collaborating to obtain better results. This lesson discusses and quantifies the improvement of cost and effort saved for the improved results obtained. Several examples are presented across the world for housing, agriculture, cars, spaceships, and semiconductor plants. | |||
=Swarm Collaboration= | =Swarm Collaboration= | ||
*Swarms allow for scalable on-demand production, and are thus important for resilience and antifragility. | *Swarms allow for scalable on-demand production, and are thus important for resilience and antifragility. | ||
*Lesson 1: how to collaborate on design with a large swarm - modular breakdown and not locking files down. | *Lesson 1: how to collaborate on design with a large swarm - modular breakdown and not locking files down. | ||
Revision as of 19:43, 25 August 2023
Lesson 1: Transforming Design
- Design is carried out by proprietary teams competing for a share of the pie. The new paradigm involves enlargement of the pie by everyone collaborating to obtain better results. This lesson discusses and quantifies the improvement of cost and effort saved for the improved results obtained. Several examples are presented across the world for housing, agriculture, cars, spaceships, and semiconductor plants.
Swarm Collaboration
- Swarms allow for scalable on-demand production, and are thus important for resilience and antifragility.
- Lesson 1: how to collaborate on design with a large swarm - modular breakdown and not locking files down.