Welcome

If you are a practitioner of either crystal grids or cellular automata, there may be interesting connections and opportunities to explore by combining these two models. By applying the principles of symmetry and periodicity found in crystal grids to cellular automata, you may be able to design new automata that exhibit crystal-like patterns and structures. Conversely, by using a cellular automaton to model the growth of a crystal, you may be able to gain new insights into the dynamics and behavior of crystalline materials. Additionally, combining these models may help you investigate the behavior of complex systems that exhibit both discrete and continuous properties, such as biological tissues or materials with heterogeneous structures. Overall, exploring the intersection of cellular automata and crystal grids may lead to new discoveries and applications in a variety of fields, from physics and chemistry to computer science and materials engineering.

Please Read

Please start by reading the blog post and research paper below. You’ll be given training to understand the basic principles of cellular automata. We are currently working on designing custom crystal grids based on cellular automata and will work with you individually to create a unique grid for your clients.

http://kristibeisecker.com/bher-dheigh-field-station-blog-exploring-the-science-and-spirituality-of-crystal-grids-and-cellular-automata-models-for-healing/?fbclid=IwAR0IJPb0XgWxtwB9udl3_iDVSZ3vUusMTFheVL2tynvH0jMJmpFzA2f7zhE

https://docs.google.com/document/d/1wYoCHwk1mpMRTyqbgr_5fZwOldomZbLhz-Y4qFYgwyg/edit?usp=drive_web

If you have trouble viewing the document click here.

CA and Crystal Grid Combinations

Evidently the practitioner will end up using CA combinations such as:

1. Rule 30 Cellular Automata Model and Seed of Life Crystal Grid

   1. For example, Rule 30 is one of the elementary cellular automaton rules introduced by Stephen Wolfram in 1983 (Wolfram 1983, 2002). It specifies the next color in a cell, depending on its color and its immediate neighbors. Its rule outcomes are encoded in the binary representation. .

      1. where the black and white represent contrasting crystals, this pattern but in the shape of the Seed of life Crystal Grid

      

2. Langton's Ant Cellular Automata Model and Metatron's Cube Crystal Grid