Tomorrow is for DNA-controlled microchips.

 Tomorrow is for DNA-controlled microchips. 

Biotechnology allows genetically engineered bacteria can control nanomachines. 

The analog computer that stores information in the form of DNA can be an excellent tool for ROM (Read-Only) memories of electronic computers. Because the ROM chip's information is stored in chemical form. That thing makes it possible to create microchips that cannot copy unauthorized. The microchip requires ROM memory for uploading its program, which involves information about the kernel or the interface that connects the operating system with hardware. Without that information, the microchip is pure sand. 

The use of genetically engineered bacteria as the tool for controlling nanomachines is one of the most interesting ideas in machine-organism hybridization. The bacteria that is loaded with customized DNA can give orders for nanomachines. The problem with this type of system is how to produce enough custom DNA. 

The artificial DNA makes it possible to create bacteria that can give signals to nanomachines by using electric impulses. The DNA makes it possible that the pre-programmed system can control nanomachines. And those nanomachines can operate independently. Or they can be connected with some other cells. 

In that kinds of systems, the nanomachines act as switches between bacteria and the receiving systems which can be cells or microchips. The electric bacteria can also use to program the nano-size microchips. The thing is that the artificial bacteria that carry data make next-generation data security possible. The idea is that the DNA that involves information is unbreakable. 

And that allows the creators of microchips to control better licenses. There is the possibility that DNA stores information in sequences, and the number of those sequences determines how many microchips that kind of system can program. When the bacteria reach the last sequence, it will be terminated by programmed self-destruction. That denies unauthorized microchip production. 

In those systems, analogic computers will transform their information to electronic systems and otherwise, electric systems can transfer data to the microchips. The thing is that the system can use analogic computers as the ultimate ROM (Read-Only) memories. The analog ROM memories are loading operating systems to electronic systems. Because data of the ROM memory is stored in chemical form, that thing can make it impossible to copy microchips without permission.