Or we might start with a similar type of project for which we've generated Chips in the past.. Chips can be made at different levels.
And crucially, they provide the common language for communication between all the different people involved in executing that project..Improving pharmaceutical facility design with Chips, generative design and automation.
We are now using chips as the basis of generative designs to allow us to automate the design process.In this context, generative design means using computers to assemble designs based on a set of rules, components and input parameters.We generate very large numbers of options for a particular design requirement, and then get humans back in to look at those critically.. We can generate many more options using automation.
Sometimes we find something which human expertise has not spotted.Generative design can create unexpected options with high value.. We are now working on making Chips available to very large numbers of users through a web interface, to use generative design for pharmaceutical plants.
We are also associating process simulation data with those Chips, so that we can look at throughput, and use throughput to define what Chips we need..
The Chip as future enabler.Having clear, data-based answers, will help to make regulatory and policy decisions.
The more information we have, the better outcomes we’ll be able to achieve.. Impacting the future with digitisation and MMC.Another potential benefit of digitising the built environment will be a positive impact on the use of modern methods of construction.
Above all else, developers are looking for certainty and speed.Sharing data across the design, engineering, planning and construction elements of development will enable us to push and promote modern methods of construction with all of the associated sustainability and energy benefits.