edit on 2015/11/9 by StargateSG7 because: Spell Fixes



edit on 2015/11/9 by StargateSG7 because: Spell Fixes



edit on 2015/11/9 by StargateSG7 because: grammar fixes



Using modern CD-ROM-based Glass Master Stamping Technology andpin-point accurate BluRay Disc Burning techniques, the AT-HOMEcreation of cheap polycarbonate plastic discs containing arraysof custom Intel Core i7 CPU or AMD/NVIDIA-equivalent GPU/DSP chipsrunning at over 7-GHZ is NOW POSSIBLE!Using techniques borrowed from programmable logic manufacturing,and home-based DVD/BluRay burning software, we can connect pre-builtelectrical components embedded into multi-layer plastic discs to formentire real-number and integer-processing logic blocks that can formvirtual CPU's equivalent in horsepower to a high-poweredIntel i7 CPU or an AMD/NVIDIA GPU.Cheap glass masters can stamp nanometre-sized wells or pits that containpre-doped P-N Junctions that are connected together via pre-stampedmicrowires on the horizontal axis and connected together in the vertical axison layers separated by non-conductive polycarbonate up to 10 layers deep!The glass masters are created at the factory which STAMP the pre-arrangedP-N Junction wells/pits into plastic discs which are sold by the millionsto end users much like DVD-RW discs are today. It is the END-USER softwareand BluRay writer which will BURN in the final pathways and connectionswhich create the final plastic CPU's and can take less than one hour to burn.Those pre-stamped plastic discs can be sold to home users in bundlesof ten, 50 or 100 discs for a price not much more than TWO DOLLARSa disc where end-users can then use logic burning software appsthat take pre-built CPU/GPU/DSP logic that gets combinedand then BURNED onto the plastic disc using a device similarin function, size and price of a home BluRay burner (i.e. less than $300!).When Blue Light Lasers (360 to 480 nanometres wavelength) and advancedfocusing mechanisms focus upon a specific pre-stamped P-N junction wellor pit in any given disc layer, the beam can be pulsed to blow apart anygiven connection between the next or previous P-N junction well/pit,or conversely, the laser can be set to pass over said well or pit thus keepingany connection intact allowing the formation of a circuit pathway whichcan then be arrayed in series to form adders, multipliers, booleanlogic and entire CPU/GPU/DSP logic blocks such as a floating pointor integer-processing or pixel-processing unit.And since each P-N Junction can have their separator barrierand/or charge carrier be made blue-light sensitive, it meansthe individual junction can be forward or backwards biased bythe blue laser pulse so that electrical current flows in aspecific direction to form arrays of transistors which canthen form even more complex microcircuits if those P-N Junctionsare connected in series.Since in-between layers can also contain arrays of electricalcharge storage wells, they can form cpu caches, cpu registersor general purpose internal memory storage systems ... AND ...in-between layers can contain pre-stamped microchannel-basedliquid cooling or air-cooling channels to allow fast heat transferand dissipation to allow much faster clock speeds as highas 10 GHZ !!!Current multi-layer BluRay disc beam technology allowsfocusing of a laser between individual disc layers up to10 layers deep at current 2015-era BluRay manufacturingareal density of 25 billion individual P-N junction wells/pitsper layer or a grand total of 250 billion junctions over aten-layer disc. Using disc burning software, the variouscombinations of electrical current directionality andorganization of individual memory cells into groupson a 3D-XYZ stacked layering system can be set by theend-user to allow the complexity of CPU circuits to approachover 50 Billion transistors! It is NOW POSSIBLE to put theequivalent of 35 Intel i7 Processors and Ten+ Gigabytesof memory on ONE ten-layer CPU-disc!If I stack those discs 100 high in ten stacks (a 2 x 4 foot box)I could have the equivalent of 35,000 Intel i7 CPU’s and Terabytes+of RAM memory on those disc stacks. And with the size of the circuitsbeing larger on an areal basis than today's silicon-substrates, I couldEMBED liquid-filled or air-based heat dissipation channels BETWEENeach layer to allow MUCH faster cooling of circuitry through thepolycarbonate layers to allow a higher clock on the order ofbetween 7 to 10 Gigahertz!Total cost of each disc using modern BluRay-based glassmaster stamping and thin film vapor deposition of aluminummicrowire techniques and the mass-production growing of pre-dopedsilicon crystals could allow manufacturing costs of BluRay-basedCPU discs to fall as low as $2 per 10-layer disc!That means for less than $25, I could have upto 350 of Intel i7 equivalent CPU's in a stackonly 10 Blu-ray discs high!Since each 3.4 GHZ Intel i7 has about 120 Gigaflops(i.e. 120 BILLION 64-bit Floating Point Operations Per Second)worth of CPU horsepower, for ONLY $200,000 I could have amassively parallel 7 GHZ, 700,000 CPU supercomputer that has168,000 TERAFLOPS or 168 PETAFLOPS !!!! that’s five timesFASTER than today's fastest 34 petaflop Tianhe-2 supercomputerwhich costs way over $100 MILLION+ !!!!!!AND....if users wish to create single-purpose GPU (graphics processing units)or DSP circuits (Digital Signal Processing), a hardware description language(i.e. VHDL) can burn those specific logic circuit types using an easy-to-useapplication similar to today’s DVD/BluRay burning software. Just assemblepre-built virtual CPU cores and custom user-designed or app store-boughtCPU/GPU/DSP logic to create custom plastic circuits.It would BLOW THE DOORS OFF today’s fastest supercomputersall in a box not much more in size than a beer fridge!These are the links to description of technologies thatsupport the creation of high-powered CPU/GPU/DSP's onCHEAP Plastic CPU/GPU/DSP Substrates:Explanation Graphic Page 1 of 2:Explanation Graphic Page 2 of 2:World's First CPU on Plastic Substrate:Company that can make Flexible CPU/RFCPU Etched on Plastic:Flexible and tunable silicon photonic circuits on plastic substrates:Compact Disc Manufacturing:Blue Laser Technology:Blue-Ray Disc technology:Programmable Logic:Field Programmable Gate Array:Logic Gates:VHDL (Virtual Hardware Description Language)Open Source RISC CPU:Open Source Hardware plans:Digital Signal Processing:GPU-oriented Stream Processing:Definition of FLOPS (Floating Point Operations Per Second)which is a measure of available CPU horsepower:Fastest Supercomputer in World: