The Next Major Breakthrough
We know that electrons travel at near light speed offering the best solution as of now. However, scientists have been researching a design using ions instead of electrons. Our brain processes information via the manipulation of ions as well. Over at Harvard, a post came up showcasing how this idea could possibly work for CPUs. A team of researchers at Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS), in collaboration with DNA Script developed an ionic chip. This circuit or chip consists of 100s of ionic transistors aimed for neural networking. The transistors consist of such a solution that can conduct electricity, featuring 2 ring electrodes and another electrode at the center. The pH varies according to the concentration of Hydrogen ions. Therefore, the 2 ring electrodes can manipulate the pH around the center electrode by simply trapping Hydrogen ions. A voltage is applied at the center electrode, leading to the generation of current from the wafer into the water. The rate of this reaction will vary according to the pH, which as mentioned above, can be controlled. In short, the current produced can be directly controlled by adjusting the local pH levels.
The pH Gated Ionic Transistor
The scientists then went on to engineer such a pH gated ionic transistor. The disk current is the arithmetic multiplication of the disk voltage and a quote unquote ‘weight parameter‘ representing the pH around the transistor. These transistors were packed into a 16×16 array for analog matrix multiplication. This is an analog chip which is not at fast as digital, however, it is much more efficient. The future looks bright for microprocessors with the rising need of a new material other than Silicon. Many speculate that Germanium may be the next in the line if silicon faces major roadblocks.