Exploring iOS App Development: Simplifying the Process
3D holographic Computer architecture
1. H o l o g ra p h i c Co m p u t e r A rc h i t e ct u r e
Optimal Storage System for 4 dimensional computing
2. A resource book for
Holographic Computer
Architecture.
We model optimal storage
systems specifically suited to
holographic computing
Each module can contain near
infinite smaller fractal units, all
modelling is based upon the
golden ratio.
Many options and combinations
are possible, we have simply
applied nature’s own optimum
packing systems.
3. When nature arranges herself for optimum
success, she selects tetrahedra to ‘closest pack’ in
3D arrangements.
We have selected the simplest possible prime
volumetric divisions of space by dissecting the
Disdyakis & Rhombic Triacontahedron.
6. Here are the nets for four prime minimum volume phi ratio tetrahedra:
E tetra is the square folded.
U-V-W tetra come from the mid section of the square.
U-Red/Green, V-Yellow/Violet, W-Blue/Orange.
A little trial and error is expected initially when making the nets, just keep in mind ALL measurements are
golden ratio.
7.
8. Science tells us photons are best portrayed as
crystalline space, we’re modelling photonic
genetics and forming them into ‘Fractal Storage
Spaces’.
9. Potentially infinite storage.
Sub dividing the UVWs into smaller by phi ratio ‘uvw’ tetra.
Superluminal wavelengths based on powers of golden ratio have been plotted.
11. Modelling EUVWs & two Rhombohedra, by following the colours carefully the sub-euvw’s can be constructed.
These are the units we use to construct the ‘membranes’ presented throughout this book.
12. Acute Rhombohedron made from the EUVW’s.
These Rhomboids can fill space in a number of
ways, optimally they pack to form the Rhombic
Hexecontahedron.
Each phi tetra is a volumetric ‘File’, while the phi
rhomboids are ‘Folders’.
13. The principle is simple and elegant in the extreme. While the system is still ahead in linear time when holograms
become the norm.
We could be well positioned for a new computer architecture with this system where every phi ratio tetra will contain
potentially an infinite number of smaller by phi scale phi tetra, a perfect solution for folders & files, plus it would be highly
educational to work with as it demonstrates the way nature works optimally.
14.
15. Files inside folders. Every acute rhomboid is packed with smaller phi tetra, every phi tetra is packed with smaller phi tetra.
16. Icosahedron radius is Rhomboid edge length, Rhomboid vertex is the same as stellated Icosa vertex.
Collecting and storing clusters of folders.
Rhomboids build polyhedral Structures
17.
18. Oblate Rhomboid packed with UVW tetra, a flat golden rhomboid used as ‘folder’ for different medium e.g.;
photos.
31. Links:
Bucky Fuller: E Tetra. http://
www.rwgrayprojects.com/synerge...
Dan Winter: fractals. http://www.fractalfield.com
David Koski: Volumetric golden spiral. http://
www.youtube.com/watch?v=LkWp_K...
Sandor Kabai: http://www.kabai.hu
RA the Law of One: http://www.lawofone.info
Krsanna Duran:Earthgrid research. http://
timestar.drupalgardens.com
Djwal Khul: Cosmic Fire. http://www.lucistrust.org:
8081/obooks/
Earthgrids: Google Earth upload. http://
www.vortexmaps.com
Bashar: All Space Filling. https://youtu.be/
6BqTCsIMMMc
Stephen Phillips: Polyhedral Universe. http://
www.smphillips.8m.com
Marvin Solit: Synergetics. http://www.youtube.com/
watch?v=VEHanK...
Robert Gray: http://www.rwgrayprojects.com/Lynn/
NC...
Fractal Solar System: http://www.spirasolaris.ca/
sbb4c.html
Dawn Stranges:Ether. http://www.svpvril.com/
dawn.html
Lynnclaire Dennis: http://www.near-death.com/
experiences...
Monroe Institute: http://www.monroeinstitute.org/
assets...
Friends who have inspired
this project.