For the new nano, a mesh construction has up to one million processors and 32,000 controls. The nano computer will take up residence at the corporate Space1 location in the USA and has options to command the launch control center, the rocket laboratory, and the space research facility to run advanced experimentation in space and time. The nano space super computer will also be used to conduct quantum research as applied to space travel.
SIZE
The design for the new supercomputer has a much smaller footprint than many super computing machines created at Humanoido Labs, and it will offer portability for non-permanent rocket sites that are moved around.
IMPLEMENTATION
Uses for the new Space1 Nano Super Computer at the USA location may include weather, analysis, rocket flight, track, monitor, extrapolate, interpolate, integrate, design, statistics, and hard core cutting edge research. Part of this is the exploration of the machine in creating a new kind of intellectual machine mind.
DESIGN
This design begins at Humanoido Labs with a ten modular NANO mainframe design using expanded 8 Parallel Dimensioned core ICs wired into a mainframe mesh of 10x8x125 = 10,000 processors per Mesh.
SPACE MESH
Each Space Mesh can control a significant part of the interface realm, enabling true functioning nano intelligence. A ten Mesh device with ten thousand processors will enable 320 real world point control. For each 100 Mesh, 3200 items can be controlled with 100,000 processors. Expanded to 1K, the machine will control 32,000 objects and contain a million computing processors.
SPACE SUPERCOMPUTER SPECIFICATIONS
10 Mesh - 10,000 Processors, 320 controls
100 Mesh - 100,000 Processors, 3,200 controls
1000 Mesh - 1,000,000 Processors, 32,000 controls
Space1 Index
