Some people think that quantum computing can be a bigger thing than the invention of fire.

New machines like autonomous nanorobots are the next generation thing in technology. The miniaturized technology requires new tools. And one of those tools is enzymes that are controlling chemical reactions very carefully. Tools that turn enzymes by using a combination of lasers, microwaves, and chemical mixtures require very effective computers. And quantum computers are the tool that makes nanotechnology more powerful than ever before. 

Quantum computers are the tools that are revolutionizing astronomy and other sciences. They can read the DNA molecules and compile that information for finding similarities in the DNA sequences. In that process, the system can use scanning tunneling microscopes or spectrometers that are connected with laser microscopes. 

Quantum computers that are connected with the nanorobots can make a copy of any DNA in the world. Those systems can control huge entireties. And they can solve even energy problems of the Earth. Quantum computers are the tools that can calculate the optimal use of fuel for each moment and change the power production and the use of things like street lights. 

Have you imagined what kind of energy-saving intelligent streetlights is in use only when somebody walks on the streets? That kind of system bases the same idea on automatic lights in stairwells. 

The speed of the R&D process in quantum computing is extremely fast. R&D teams are using quantum computers for researching new quantum systems. 

What if the streetlights will turn on only at the point where the person walks? That thing will highlight that point and make the person even more visible. 

What kind of energy saving will get if every car has individual route orders? In that case, the artificial intelligence will handle traffic in its entirety, where the autopilots of the cars fix their speed so that the standing time at traffic lights and crossroads is minimum. Minimizing the driving time and making the route that will spend electricity and decrease carbon emissions. 

If some people would stay home at remote work in some days in the week. That thing can also decrease carbon emissions. But the large entireties require large-scale intelligent systems. The data security must be fully confirmed because hackers can cause very big problems with that kind of system. Quantum security cannot be broken by using regular binary computers. 

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Good and bad AI.

The thing, that makes AI so powerful is that it's the computer program. That system can operate on any suitable platform. So it can interconnect multiple devices together. 

That means if the AI software is ready. That thing can download to any computer in the world. AI plays a very important role in the world of tomorrow. Those algorithms are controlling the use of electricity, the more and less autonomic cars and new types of weapons can program by any person who knows how to make the computer program. 

AI is making society also vulnerable to cyber-attacks. And in the AI-driven world, the computer virus or malicious code can be dangerous because the AI can affect multiple things. The AI can observe large areas, and it can connect all devices that are operating in the same network segment to an entirety that can share information without limits.

And that makes those things so powerful. The AI can operate the entirety of the traffic. And that makes driving more economic and comfortable than it's now. The AI can also slow down servers and disconnect the microprocessors at the time when a thing like an internet nexus or root servers are not in full use. That thing makes them more economic and environmentally friendly. The AI can also make home operations more energy-friendly than it's now. While the person is at work, the AI can decrease the room temperature. And it can turn off lights when everybody is outside. 

The AI can also make reports to the owner of the house if somebody opens the door. Also, algorithms can detect things like when the grass is too long and order the robot to cut it. There is the possibility that in the house operates a human-looking robot, that will get information when its master will come home. And that robot can start to make dinner when its master comes home. The robot can time its actions so that when its owner comes home that person feels comfortable. The robot can also act security guard. But the problem with robots is that they are multi-use systems. 

When we are thinking about the drones that are carrying food to homes. We do not always remember that the same drone can drop bombs. The drone can get to the point where it should lay its cargo from the application that tells the GPS coordinates to the drone. The same system that lays the cargo can easily be modifiable to drop bombs. 

Artificial intelligence is a computer program as I wrote earlier. That means that even small size devices can use complicated computer software. And things like Javelin missiles are a good example of AI-driven small-size weapon systems. 

The Javelin can also install under small drones and it can use in remotely operated shock systems. The regular aircraft can carry that thing deep behind enemy lines. And it can be extremely dangerous. 

The power of AI depends on the computer code but also the power of the electronics and especially the CPU are putting limits to use that thing. But the small-size missiles like "Stingers" can have complicated homing programs. And that thing makes those systems more effective than ever before. 

But cyber defense is extremely important when the AI-driven weapon systems are operating. The computer viruses that can slip into the weapon make it useless.