The founder, Dr. Ko-Cheng Fang, improves the current chip manufacturing technology, and makes the computer computing evolve from two bits to multi bits. This optical chip manufacturing technology will have a huge impact on the semiconductor industry. It will change the future technology and improve the speed of computer computing, and the computer, electronics, aerospace industry, and national defense industry will be all influenced. This will make human technology enter a revolutionary progress, which will enable computers to perform at a high speed with multi bits, and enable future robots to have the artificial intelligence of supercomputers.
This technology could replace electronic chips with optical chips, replace PCB with an optical circuit board, and replace the current electrical memory with an optical memory. In the future, we will no longer manufacture complex silicon wafers, but replace them with optical glass.
With the approval of Dr. Ko-Cheng Fang’s patents and the publication of the essence of the optical chip design, it has affected the chip R&D direction of scientific research teams and major leading technological companies in various countries. However, the development of others' optical chip technology is not yet mature at present. For example, their optical chips are still designed on the silicon base, and the optical signal cannot compute and can only be used as data transmission. Therefore, these kinds of optical chips must be combined with electronic chips and operated with binary computation. In this way, they still need photolithography machine to form nano line, and the materials like indium phosphide (InP) will be used when the optical signal is generated on the silicon base.
This is because phosphorus can generate optical signal, and indium can be combined with silicon base to make a semiconductor. However, the manufacturing process still requires photolithography and etching machines, so the result is just old wine in a new bottle and does not show the advantages of optical chips at all ! In contrast, the principle of our optical chip uses light having different wavelengths as the basis for calculation, so the generation of optical signals is not limited to on the silicon base. Therefore, semiconductors are not required, and there is no problem of being limited to special materials.
Then photolithography machines and etching machines can be discarded because light paths are almost made by microphotographic nano printing! In addition, as long as using multi-bit photon bits to calculate, the required circuits will be reduced a lot and shortened, and the calculation speed can be increased by more than a thousand times.Dr. Ko-Cheng Fang is the only inventor with optical computing patent in the world. He further has the picoscopic scale chip technology to provide to cooperate. It is believed that the manufacturers obtained from our technical instructions will quickly make the first optical chip and occupy a leading position in the future competition.
Introduction of optical chip
Comparison of the difference between binary operation and multi-bit operation
Hard to make a realistic robot by today’s binary computer
Comparison between electronic chips and optical chips
He patent, "Multi-bit Optical Computing System", filed by Dr. Fang has been published and has granted by Taiwan, the United States and the South Korea patent offices. With the publication of the patent contents, the essence of the optical chip design has also been disclosed. This technology will replace TSMC sooner or later.
Do you know there is a very important key? The computing speed of electronic chips are not only slow due to the 0 bit and 1 bit limitation. The more troublesome thing is that once the specifications of electronic chips enter into three nanometers or two nanometers, or even when they will go to develop towards one nanometer in the future.
Develop different stages of 1nm chips including “two-bit electronic chip,” “multi-bit optical chip” and “multi-bit quantum chip” to satisfy the needs of manufacturers for different chip development. The chip design is led by LongServing Technology. Welcome IC design house, chip manufacturers, related upstream, midstream, and downstream industry chain manufacturers, robot manufacturers, decimal software developers/designers, and those operators who are interested in multi-bit computing computers, AI robots, etc., to participate in the design and development of multi-bit computing computers, and participate in development of different stage chips. Collaborate to build the first 1 nm 2-bit electronic chip, 1 nm multi-bit optical chip and 1 nm multi-bit quantum chip. Participants will have the advantages of sharing technical resources, technology transfer, preferred stocks, preferential authorization, etc. Interested collaborators are welcome to contact us as soon as possible, and we will assign a member to make a description for you.
Manufacturers who are interested in developing and investing in optical chips are welcome to discuss with us about patent licensing, technology transfer, and mass production to realize multi-bit high-speed computing optical chips, allowing you to overtake on corners in the era of AI and quantum technology.