Tesla
Perhaps the Ampere Altra could handle Hypersampling
Although it's a data server, used to manage the incoming communications of several different points, the total processing power amounts to a whopping 240 Ghz/s
Power consumption is a challenge for all modern datacenters, especially those operating at hyperscale. Due to the growth in datacenter use cases, power consumption continues to rise. It is estimated that datacenters are currently utilizing 3% of the world’s electricity, and that is projected to grow to 11% by 2030. So James Bogu Energy's mission of creating energy efficient gear to reduce the carbon footprint of big scale companies in the world is still a main goal, even if the developed software and hardware can be compatible with the biggest processing power of our generation.
The new QBit factory is low energy and processes at ~250Ghz/s through the process called cymatic quantum bit count process. In which the processor uses something called a µ-voltage, produced by the atoms coming closer to a sensor strip that produces a small amount of electricity when in proximity and motion with the electromagnetic atoms (gold in this case.) A conventional processor, with the only mission of operating a wave-induced gate that matches the necessity of the binary digits required for processing sequences, running the wave-induced gate algorithm, the high-frequency gate timed according to the incoming bits sorts them and sends them to the right place. This process uses less energy than the amount of energy your current phone and laptop use.
However currently in this process SSD's are being researched to take advantage fully of this large scale storage capability so that the operations are seamless and fluid. In the next available versions of OS, install and uninstall of even the largest programs can be rolled back, undid and redid as if they were steps inside of a DAW or paint program. Video rendering is of course much faster, and a hours long high definition video could be fully rendered in a matter of seconds. Without clunky hardware, in the palm of the hand.
The development of the hypersampling software will start right away, given that even if the most user-friendly hardware isn't available for the general public, a data center tailored to take up only the camera recording demands of this new software, could handle by using each processor to segment and record only a fraction of the total image.
Each pixel will have something called a zoom-memory, a 5MP^2 range from zoom values available in the proximity of that pixel that are accessible through selectors in the software. The new cameras will come with infrared capabilities, as well as gamma-radiation sensors that will record not imposed, created radiation, but the natural radiation that reflects off of the innermost layers of materials.
By using a selector, navigating through this short video of approximately one minute consuming a large amount of space, the user can view every layer of matter available up until the atomic scale.
The key to finding this effect was to match the missing information that is lost in aliasing. The sample is called a hypersample because of the pixel zoom memory as well as the radiation intake capabilities.
This will evolve science tenfold, as it will enable all levels of matter to be analyzed in real time with relative ease, as well as the actual effect of medicine in the body in real time, and will permit all possible problems, ailments, bone structure, cancers, tumors, clogged arteries and the like to be viewed in real time. It makes medical diagnosis so much simpler.
There will be several other benefits, as it could analyze pressure and strain of real mechanical systems, and structures, by visualizing the actual vibration pattern of matter. Hopefully you know what to do.
Since there is no budget for my company and I am developing these ideas self-funded from the back of my mind, it surely would be a huge waste to delay scientific progress only because of title-grabbing and other sensitivities of the egotistical.
Who knows what I'll be able to invent 25 years from now, when maybe I'd have a budget for experimentation and all? Take this make something out of it and let my shipwrecked company serve as an inspiring metaphor to drive humanity forward from it's rotting bones.