I Am the President of the University

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(Don't look at it yet, it's still in the codeword, so sorry!)

(Don't look at it yet, it's still in the codeword, so sorry!)

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The advantage of diamond single crystal nanotechnology is the combination of optoelectronic computing, because the energy consumption of the photoelectric core is the lowest, and it has advantages over graphene. The carbon core does not mean that it must be black graphene. Diamond is carbon. .

The carbon application team of the Huawei Research Institute is really exploring this now. Once the carbon application technology breaks through, it will forget about the original nanotube technology restrictions, and now it's almost a tipping point.

Diamond can be used as a chip, and it can also be combined with optical computing and electrical computing. The current chip is electrical computing. The next generation has two directions. One is an optical core, which uses photons instead of electrons, but that requires photoelectric conversion, and the other is Use carbon technology to replace the current silicon-based or molybdenum-based, and diamond can take care of both. If the process of material ductility and flexural toughness is solved, then the next-generation display screen is integrated with the chip, there is no circuit, no bus Up.

Diamond has high strength and is not afraid of damage, but its ductility and flexural toughness are not good, and it has no free electrons and is difficult to conduct.

However, the optical conductivity of diamond is very good. Now the new technology realizes the tensile and bending properties of diamond nano-single crystals, and the single crystals can achieve good electrical conductivity while retaining the original optical conductivity.

Using this material to make a display screen does not need to be layered, and there is no need to match a decoding imaging chip, and can be directly made together.

Moreover, the speed, efficiency, and energy consumption of optical logic gates can be reduced by an order of magnitude by using photons to implement operations.

And it will not be limited by the refined manufacturing accuracy of chips or OLED displays, which will widen the road in one go.

With such a display, it is easy to linearly jump to a 16K screen, and the energy consumption is less than one-tenth of the current one.

Electronic chips or electronic displays are easy to generate heat, transistors are made smaller and thinner, and the production process requirements are high. However, the diamond soft screen that implements optical computing does not have this display. The production process of his chip or optical unit is currently produced It is easy to implement and does not require a 7nm lithography machine.

The advantages of photon screens are sturdiness, low energy consumption, high power, and production is easier than OLED, at least the process is easy. Moreover, it can realize multi-function integration and greatly reduce the production process.

The advantage of diamond single crystal nanotechnology is the combination of optoelectronic computing, because the energy consumption of the photoelectric core is the lowest, and it has advantages over graphene. The carbon core does not mean that it must be black graphene. Diamond is carbon. .

The carbon application team of the Huawei Research Institute is really exploring this now. Once the carbon application technology breaks through, it will forget about the original nanotube technology restrictions, and now it's almost a tipping point.

Diamond can be used as a chip, and it can also be combined with optical computing and electrical computing. The current chip is electrical computing. The next generation has two directions. One is an optical core, which uses photons instead of electrons, but that requires photoelectric conversion, and the other is Use carbon technology to replace the current silicon-based or molybdenum-based, and diamond can take care of both. If the process of material ductility and flexural toughness is solved, then the next-generation display screen is integrated with the chip, there is no circuit, no bus Up.

Diamond has high strength and is not afraid of damage, but its ductility and flexural toughness are not good, and it has no free electrons and is difficult to conduct.

However, the optical conductivity of diamond is very good. Now the new technology realizes the tensile and bending properties of diamond nano-single crystals, and the single crystals can achieve good electrical conductivity while retaining the original optical conductivity.

Using this material to make a display screen does not need to be layered, and there is no need to match a decoding imaging chip, and can be directly made together.

Moreover, the speed, efficiency, and energy consumption of optical logic gates can be reduced by an order of magnitude by using photons to implement operations.

And it will not be limited by the refined manufacturing accuracy of chips or OLED displays, which will widen the road in one go.

With such a display, it is easy to linearly jump to a 16K screen, and the energy consumption is less than one-tenth of the current one.

Electronic chips or electronic displays are easy to generate heat, transistors are made smaller and thinner, and the production process requirements are high. However, the diamond soft screen that implements optical computing does not have this display. The production process of his chip or optical unit is currently produced It is easy to implement and does not require a 7nm lithography machine.

The advantages of photon screens are sturdiness, low energy consumption, high power, and production is easier than OLED, at least the process is easy. Moreover, it can realize multi-function integration and greatly reduce the production process.

The advantage of diamond single crystal nanotechnology is the combination of optoelectronic computing, because the energy consumption of the photoelectric core is the lowest, and it has advantages over graphene. The carbon core does not mean that it must be black graphene. Diamond is carbon. .

The carbon application team of the Huawei Research Institute is really exploring this now. Once the carbon application technology breaks through, it will forget about the original nanotube technology restrictions, and now it's almost a tipping point.

Diamond can be used as a chip, and it can also be combined with optical computing and electrical computing. The current chip is electrical computing. The next generation has two directions. One is an optical core, which uses photons instead of electrons, but that requires photoelectric conversion, and the other is Use carbon technology to replace the current silicon-based or molybdenum-based, and diamond can take care of both. If the process of material ductility and flexural toughness is solved, then the next-generation display screen is integrated with the chip, there is no circuit, no bus Up.

Diamond has high strength and is not afraid of damage, but its ductility and flexural toughness are not good, and it has no free electrons and is difficult to conduct.

However, the optical conductivity of diamond is very good. Now the new technology ~www.wuxiahere.com~ realizes the tensile and bending properties of diamond nano-single crystals, and the single crystals can achieve good electrical conductivity, while maintaining the original optical conductivity. ability.

Using this material to make a display screen does not need to be layered, and there is no need to match a decoding imaging chip, and can be directly made together.

Moreover, the speed, efficiency, and energy consumption of optical logic gates can be reduced by an order of magnitude by using photons to implement operations.

And it will not be limited by the refined manufacturing accuracy of chips or OLED displays, which will widen the road in one go.

With such a display, it is easy to linearly jump to a 16K screen, and the energy consumption is less than one-tenth of the current one.

Electronic chips or electronic displays are easy to generate heat, transistors are made smaller and thinner, and the production process requirements are high. However, the diamond soft screen that implements optical computing does not have this display. The production process of his chip or optical unit is currently produced It is easy to implement and does not require a 7nm lithography machine.

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