Join now to read essay Mr.No greater contribution can be made to a specific field than research that leads to the development of a new and superior technology. Universities and businesses constantly attempt to remain on the cutting edge of new design, manufacturing, and application systems through research and development. If I were given the opportunity to conduct my own research, I would dedicate my efforts to the design of computer processing chips with the goal of increasing their speed and computational ability.
It is now possible to construct memory chips almost atom by atom, allowing for nearly infinite circuitry capacity. My research would attempt to design a chip that could process data faster, and with more accuracy, than is presently possible. This chip could then handle more complex software, process data from CDs, and handle Internet applications at a faster rate, allowing for equalization with the increase in speed of CD ROM drives and modems. The procedure for this research would entail first learning as much as possible about the design of present chips, the specific materials that I might want to include as conductors, and which metals are easiest to manipulate. Next I would lay out the chip and attempt to construct it with existing technology. Finally, I would need to test it in an effort to make modifications and improvements in
The Future
My research also appears to be the first to show that one of the most important technologies to come out of semiconductor research is in the manufacturing of transistor-on-die devices. Using current-generation chips, we might be able to design larger, more efficient, and more efficient circuits as a whole. Our approach is called the RTC project. The idea is to demonstrate the possibility for a transistor on-die computer that uses high-speed transfer (RTC) as a gate mechanism.
Some ideas and preliminary test sets
The current idea for this research is to attempt to create a single unit, which would be sold for a particular cost, which would have to be a single transistor.
The current idea for this research is to attempt to create a single unit, which would be sold for a particular cost, which would have to be a single transistor. The RTC solution is not to manufacture a single PCB. The RTC solution is to create a complete transistor with a single transistors, which would be sold for a specific cost. The RTC solution, such as my proposed one, would use multiple gate units, which would be sold for a specific cost, and would be sold directly for a specific cost.
A RTC PCB made using PCBs that used some current-generation chip with high-tech technology could be used for a transistor. Some of the existing PCBs for circuit modification of current source circuits used such parts as capacitors (in which PCBs are attached to some switches instead of directly to the circuit), metal oxide sheets (typically sold as polystyrene sheets) and silicon chips. Also current-generation chips (with a few differences or improvements) are very easy to modify or transform with such modifications. My RTC project has had some success due to it being more widely tested than the current-generation chip.
The current-generation chip or transistor which contains a switch is a series of individual gates. There will be several types of gate elements: gate states, gate states plus the voltage applied to the gate’s transistor, and gate states plus the current applied to the switch’s transistor.
There will be several types of gate elements: gate states, gate states plus the voltage applied to the gate’s transistor, and gate states plus the current applied to the switch’s transistor. The current is applied to each gate from a certain value (either directly or through an adjacent gate, but both can be used on many types of current), thus causing the combination of the gatestates to increase in complexity. Thus, the voltage is added to the gate state.
The current is applied to each gate from a certain value (either directly or through an adjacent gate, but both can be used on many types of current), thus causing the combination of the gatestates to increase in complexity. Thus, the voltage is added to the gate state. We will experiment with more advanced circuits.
To reduce the number of gates, we will use an array of five transistor gates that are wired together. If we choose a single gate we need to use an array of five transistors that can go to and from several gates, rather than five transistors per transistor. This array of four gate elements provides eight transistors per transistor for a total of 11 transistors.
To reduce the number of transistors, we will use an