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Catherine is still looking at Kodak with old eyes.{http:

..

Updates uploaded by friends}.

But in fact, she had changed her ways, and Catherine's anger was simply at the wrong target.

But even if Catherine knew that the other party's attitude had changed, I'm afraid she wouldn't care.

Because Catherine came here just for the patent in the other party’s hands.

And even if the other party seizes this opportunity, it may still go bankrupt next time. All in all, Kodak in your own hands has a better future than in the hands of others.

This is the reason why Kodak filed for bankruptcy protection in 2012. For a long time, Kodak has attached great importance to investment in research and development. Although it missed the "trip" and abandoned the entire forest because of a big tree, it was still

its innovative efforts and achievements remain its

The most valuable asset. According to statistics, Kodak holds at least 1,000 digital images and imaging patents, which is also its last life-saving straw. Mastery of core technology is crucial to an enterprise, and continuous innovation and upgrading of technology is

The driving force for continued development.

Many examples have proven that the success of an enterprise will not be permanent, and market advantages are often short-lived. Nokia was once the leader in the mobile phone market and contributed a large amount of GDP and employment opportunities to Finland. But with the emergence of new smart phones

After repeated "bombings", Nokia's market leading position began to be threatened, and its global market share continued to decline.

Speaking of Nokia, Catherine felt that she should also go to Finland to see. Has this company changed from a lumberyard to a mobile phone manufacturer?

However, after learning about the relevant matters, Catherine didn't pay much attention to it.

Because Catherine has to write a new book next.

Well...it can be regarded as a sequel to "Information Revolution".

——"Intelligent Era".

"For most people at home and at work, the PC will still be the primary computing tool. You still need a big screen and a keyboard to write emails and browse those complex web pages, and you also need a computer that is powerful enough.

host to process images, play large games, etc. But the PC will work with other new devices, and you can share your content on different machines.

All kinds of data - files, schedules, plans, emails, contacts, etc., everything will be automatic, you don't have to think about uploading it all the time. You can just use the device at hand to check the discount price of a new car.

At the same time, you know whether there are enough funds in your account. (1_1) No matter where you are, no matter what you want to do. You will get all the information you want to know.”

"The development of personal computers will change everything in the world. This is already destined. And personal computers will also become an indispensable part of people's lives."

"With the birth of ultra-thin screens, smart portable devices will also be born, and then replace PCs and become creations that change the world. Laptops, even touch tablets, and mobile phones with smart os will become the entry point to change the world.

Point. The former can be called the 'PC era' and the 'PC+ era', while the latter comes from the 'post-PC era' where integrated circuits are more highly developed."

"But I think PCs will continue, and this universal device will always be with us in different forms, whether it's a tablet or a laptop, or an ordinary desktop computer. So I think PCs will become the majority in the future.

Devices that everyone has. There is a type of device that is not like a traditional general-purpose device. They focus more on some specific functions, whether it is a mobile phone, an ibag or other devices. I think this type of device will continue to

Create innovations, and we'll see them more and more."

In the smart era, Catherine is actually continuing to "blow the wind".

Because of the development of neuronal computers, Catherine believes that by the time she reaches the 21st century, the times will definitely be completely different. Catherine also believes in the arrival of the "intelligent age."

For that future era, Catherine prepared the book for the current "Intelligent Era".

With the development of the Aquarius processor, Catherine believes that the development of PC will enter a perfect and prosperous period.

Of course, Catherine also attaches great importance to the development of current supercomputers.

Catherine has always encouraged Seymour Clay to innovate rather than stick to the current Galaxy series.

What is a billion floating point operations?

Even if it is the next 10 billion blade server-style supercomputers, what does it matter?

Only with the development of the times will it be possible to have higher-level chips. Staying at the present and being complacent will eventually lead to a dead end.

——You know, before Catherine came to this era, there was already 1te

aflop (trillions of floating point operations per second) level processor chip!

Because of this, Catherine has decided to bring the Pisces computer into the dual-core era in advance.

Of course, Catherine does not plan to simply build a dual-core system, but plans to use a new technology.

Just like the previous one-trillion-per-second coprocessor, this processor chip is based on Intel's (non-Catherine) many-core integrated (mic) architecture and is the first commercially available Intel many-core integrated architecture.

The product is produced using Intel's latest 3D tri-gate 22nm transistor process. It has 50 cores. This product is called knightsfe

The unique thing about y's CPU is that it is not just like a traditional accelerator, but more like an accessible, programmable, full-featured high-performance computing node. From the perspective of the application, it is like a running automatic accelerator.

Yes, computers based on ** operating system.

Catherine is definitely not good at 3D tri-gate transistors, but when it comes to dual-core technology, Catherine thinks she is not that incompetent.

Moreover, Catherine has already vaguely thought about using carbon nanotubes to make CPUs.

There are many types of carbon nanotubes, and it is by no means impossible to use carbon nanotubes to make chips.

Catherine's plan was not just groundless.

Instead of spending ten years to own 33 nanometer technology, it is better to use carbon nanotubes to enter the 9 nanometer or even lower and more energy-saving era.

This is not something made out of nothing.

The so-called unfounded theory is that in the 21st century, IBM did such a thing.

Nanotubes are things with great physical properties. They have strong mechanical properties and a very good ability to carry electrons. IBM researchers have created a carbon structure nanotube with a size of only 9 nanometers.

It can produce very small transistors, and IBM's prototype can perfectly replace the silicon transistors of Intel's IVB platform, which has more powerful computing capabilities and much lower power consumption.

Now, with the development of carbon nanotubes, this technology will only become more and more advanced in the future, and this process is necessary from laboratory to industrial production.

Carbon nanotubes are made of flat graphite (carbon atomic layer) crystals rolled into a long, hollow tube with a diameter of usually 1 to 10 nanometers and a length of several to several thousand nanometers. Using carbon nanotubes as devices not only

Because of its small size, it also has many unique properties: for example, the one-dimensional transmission of electronic information in it is better than the two-dimensional transmission in cmos.

The transmission is much faster because the electrons in the carbon nanotube are transmitted in one direction. Its ballistic electron conduction method reduces collisions and can minimize resistance and delay, thus reducing energy consumption. At the same time, it also has

It has the characteristics of high electrical breakdown strength, large thermal conductivity, and high mechanical strength, so it also has application potential in many other fields.

Depending on the curling structure of the tube wall, carbon nanotubes can exhibit different conductive states. They can become conductors, semiconductors or insulators. In this way, using carbon nanotube materials to manufacture integrated circuits can not only be used to make devices, but also to make connections.

Wire. Because the resistance of metallic carbon nanotubes is independent of length within a certain range, it is particularly powerful as a connection for ULSI.

Speaking of which, the only problem is... integration.

How to integrate these chips is a big problem.

But Catherine had an idea at this time - S protein.

Why can't we use S protein, using biological models, to integrate these carbon nanotubes?

When she thought of this, Catherine stopped writing and immediately started to take action.

As a person of action, Catherine does things absolutely neatly.

Of course, Catherine couldn't just go to Jenny like this.

Because how to integrate the chips is not a problem. If you combine them the way you want, that is the biggest problem.

If this could be solved, it would be much simpler.

At that time, Moore's Law and Edson's Law could be completely eliminated in an instant!

It's like they are two different majors. I no longer use transistors, but switch to carbon nanotubes, so naturally the laws originally used for transistors cannot be used.

Catherine has decided to invest money in researching carbon nanotube CPUs.

Nanoscale technology can allow Catherine to quickly have a computer system that can run tens of billions, or even hundreds of billions, or trillions of times. At that time, Catherine believes that everything will be subverted...

This is an opportunity, an opportunity for you to completely transcend the original world and welcome the new world!

"Well...the most important thing now is to acquire Kodak..."

Catherine thought for a long time and finally came to this conclusion.

If Kodak is not acquired for a day, Catherine will feel uneasy, so... Kodak must die!

…

Five updates!

The fifth update is completed, hahaha~

A tiger touches a small stick~(To be continued...)

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