Hand rubbing nuclear fusion live in the wilderness
Chapter 539 The construction of the spaceship is completed
Chapter 539 The construction of the spaceship is completed
Chapter 538: Spaceship construction completed
The computing power generated by less than 1 lampposts can be compared to a silicon-based chip with tens of billions of transistors. It goes without saying that the performance of this diamond chip is superior.
After continuous experiments and radiation testing, Han Yuan roughly found the secret of its super computing power.
The first is the method of manufacture.
It is completely different from the traditional carbon-based and silicon-based chip manufacturing methods. At present, the core structure of this diamond chip is not processed through etching, developing and other processes.
Traditional carbon-based chips and silicon-based chips are manufactured by subtractive materials, just like engraving on a piece of jade, using a lithography machine to remove unnecessary parts.
And this diamond chip is additive manufacturing. Like a 3D printer, it is manufactured by adding lampposts one by one on a metal base.
When these lampposts are carefully observed under a microscope, you will find that they are like trees in the forest, with different heights and lower heights.
When controlling the different levels of energy stone radiation, Han Yuan found that the number of lights and the corresponding positions of these lampposts are also completely different.
Although the transmission of its light and radiation particles is along a straight line, it can not only be flagged (propagated) along the XY axis, but also can be transmitted from high to low, from low to high, 360 degrees without dead ends.
For example, if you use four candles, put them in a word, place the candles at the four corners, and name them abcd. In this way, there are twelve different kinds of transmissions in just a single transmission from a to b. Way.
And with each additional candle, the number of times a single pass increases exponentially.
According to the fact that each of the more than 7000 lampposts in the core of the diamond chip in his hand can connect to all other lampposts, the total number of sorting and transmission methods of particle radiation can exceed tens of millions.
If one transistor is counted according to each different transfer combination, there are tens of millions of transistor calculation groups in this diamond chip.
And this is only a single transmission method of two lampposts, what if three lampposts are combined for transmission?For example, there are still four candles in the form of words, and they are still named abcd. In addition to the single transfer such as a——>b, there are also a——>b——>c; a——>c——>b;a ——>d——>a Composite transfer, there are actually quite a few transfer paths.
This is like the different numbers of transistors in carbon-based chips and silicon-based chips making up logic gates, and the different numbers of logic gates making up computing circuits.
If calculated according to this method, the total number of sorting transfer methods of particle radiation can exceed one billion.
However, this number is still slightly less than the number of transistors in the current carbon-based chips and silicon-based chips, which can easily range from billions to tens of billions.
The performance comparison between the two is probably the comparison between the latest twelve-generation I5 chip and the previous seven-generation I5 chip.
Although the latter is not bad, but relatively speaking, the performance is still lagging behind.
So in this diamond chip, there should be some way to enhance computing power that he has not observed.
After continuous research, Han Yuan found another reason for the powerful performance of the diamond chip in his hand.
That is the difference in the number of radiation particles transmitted by each lamp post.
Traditional silicon-based and carbon-based chips use the switching of transistors to correspond to 0 and 1, and do binary calculations based on this.
In this diamond chip, Won found that its calculation method depends partly on the propagation of radiation particles, and partly depends on the number of propagating radiation particles.
Under normal circumstances, the number of radiation particles transmitted by each lamp post is one or two.
Here, one radiation particle and two radiation particles do not actually represent mathematical meaning. It does not mean that one radiation particle starts from one lamppost and enters another lamppost, and after adding it, it will become two. .
The number of particles here actually represents a state.
Similar to the power-off and power-on states of transistors in silicon-based chips, they correspond to 0 and 1 in binary calculations.
Although the judgment method and mechanism are somewhat special, the principle is the same.
If one more radiation particle is added, the underlying computing mechanism of this diamond chip will change from binary to ternary.
This is completely possible, he can think of it, and the person who developed this chip can naturally think of it.
So in the follow-up experiments, Han Yuan constantly adjusted the experimental parameters and conditions, trying to find the third radiation particle.
Finally, after nearly a week of experiments, under the specific radiation input of the energy stone, the diamond on a certain lamp post emitted three radiation particles.
The appearance of the third radiation particle made Han Yuan excited.
Immediately afterwards, another experiment under the same conditions was carried out, and the second experiment confirmed that under certain radiation input conditions, the lamp post would transmit three radiation particles for propagation.
Regardless of the small change from the original two radiation particles to three, this represents a change in the underlying calculation system.
Before he developed the Chinese intelligent programming language and carbon-based chips, the underlying computing rules of computers in human society were based on binary.
That is, the two numbers 0 and 1.
After the emergence of carbon-based chips and the Chinese intelligent programming language, binary began to gradually transition to ternary.
Compared with binary, ternary has stronger computing power, and can write more intelligent and flexible programs, so that the computer that can only make judgments before has a third uncertain state.
The same is true for the diamond chip, the propagation of a particle of radiation at the beginning represents the binary calculation.
But with the emergence and spread of the third radiation particle, it means that it may no longer be limited to binary, it has become ternary, and now it is also applicable to ternary calculation.
This discovery made Han Yuan look forward to the next experiment.
Because in theory, since this diamond chip can control three radiation particles for calculation, it is completely possible to control four radiation particles, five radiation particles or even more particles for calculation.
Binary can be promoted to ternary, so can ternary be promoted to quaternary?Can quaternary be promoted to quinary?
Although mathematically speaking, there is not much difference between binary, ternary, and quaternary.
Data calculations that can be done in binary can also be done in ternary and quaternary, but the calculation methods are different.
But in computers, binary computers, ternary computers, and quaternary computers are two completely different concepts.
In fact, the so-called base computer can be regarded as a 'state' computer.
There are only two states of 'true and false' in binary, while ternary has an additional state of 'uncertain' or 'unknown' in the definition of true and false.
Compared with the ternary system, the quaternary system will have one more state, so what will this state be?
Han Won didn't know, he didn't have knowledge and information related to quaternary computers in his mind.
The current human computer scientific research theory believes that the four states of the quaternary computer are [True] [False] [Unknown] [False True].
The first three kinds of won know and are also used in the carbon-based chips he is currently using.
But whether the fourth state is [false and true], Won is not sure whether it is.
One is that no one has ever proven it.
Second, he feels that the fourth state may not necessarily be true or false.
Because the definition of false truth is actually very similar to the 'unknown' in the ternary system, and it is also a kind of fuzzy state.
Just as there is no absolute good or evil in the world, computers sometimes don't know whether the data is true or false.
If this type of data is divided into false and true, it can actually be divided into unknown.
So when it was confirmed that this diamond chip can perform binary and ternary calculations, South Korean Won was particularly excited.
He is looking forward to the emergence of quaternary computing chips.
For a computer, the more states it can simulate, the closer it is to human thinking.
Quaternary computers, or four-state computers, are theoretically more advanced than ternary computers.
This advancement is not reflected in saving energy, saving components, saving storage, etc.
If you want to save things like energy consumption and storage space, the e-ary system is the most economical.
But for a computer, the more states it can simulate, the higher its intelligence and performance, there is no doubt about it.
As for energy, storage space, and component loss, these things are not worth mentioning in front of the level of intelligence.
Just like after the development of controllable nuclear fusion technology, he has no shortage of energy in a short period of time.
In the case of no shortage of energy, it is naturally the most important to improve performance.
So Won wants to find the fourth state of the quaternary computer from this chip.
In the next half a month, South Korean won was looking for the fourth state in the diamond chip.
But no matter how he adjusted the radiation released by the energy stone, the fourth radiation particle did not appear.
"Maybe I'm thinking too much, how can a quaternary computer appear so easily."
Han Yuan shook his head, ready to give up temporarily.
After nearly half a month of searching, the fourth radiation particle still did not appear.
Half a month is not a long time, especially when developing a new technology, let alone half a month, even if there is no harvest for half a year, it is normal.
But it is impossible for him to waste half a year on this.
If it can be determined that this diamond chip is a quaternary chip, it is okay to say that it will take some time to find it at most.
The problem is that he can't now determine whether the chip has a fourth state.
Although theoretically speaking, it can fully possess the fourth, or even the fifth and sixth states.
But after all unknown.
In this case, it is not appropriate to spend too much time looking for it.
After all, his time is very tight, and there are less than four months left in the second year, and there are other things to do in the follow-up.
This kind of matter of finding the fourth radiation particle is left to Xiao Ling to do it.
Han Yuan still hopes to find the fourth radiation particle. As long as he can determine the state indicated by the fourth radiation particle, he can further express it on the carbon-based chip.
On this basis, if we modify the underlying code of Xiaoling to adapt it, the level of intelligence will definitely be improved to a higher level, and it is even possible to transform into an artificial intelligence life.
After handing over the search for the fourth radiation particle to Xiao Ling, Han Yuan came to the shipyard where the spaceship was built again.
There are less than four months left in the second year, one hundred and six days to be exact.
In the second year's mission, he has completed the basic tasks of the resource collection side-chain mission and the galaxy data collection side-chain mission, leaving only the last "overlooking the earth" that has not moved.
The requirement of this mission is that he personally land on another planet and look down on the earth from the other planet.
If it's just going to other planets, it's not difficult for him.
Ordinary space shuttles can do it.
But when it comes to your own safety, you still have to be cautious.
In the dozens of missions performed by the space shuttle in the past, there have been accidents, and even a space shuttle has crashed.
So Won doesn't really want to take the space shuttle to the moon.
If the unmanned spaceflight falls, it will fall, and it will only lose a space shuttle.
But if the manned spaceflight fails, it will be cheating.
The spaceship is different, with a huge volume, the six completely independent sub-chambers are equipped with a power system and an independent life support system.
As long as all the cabins are not destroyed at once, people will be fine staying in it.
And even if there is a problem with a certain part, it can be discarded directly. Even if there is only one sub-cabin left, it can fly back to the earth or land on the moon.
The last time I came to the dock, the overall completion of the spacecraft was already quite high.
This time again, the audience in the live broadcast room is quite concerned about the construction progress of the spacecraft.
Through the live broadcast, the audience can see that the armor coverage that was not completed last time has been completed this time.Moreover, all the platforms surrounding the spacecraft have been dismantled.
In the dock, all the industrial robots that were originally dense have disappeared at this moment, and only a huge spaceship stands there quietly.
This excited the audience in the live broadcast room.
[Looking at it, this spaceship has finally been repaired. 】
[Can you fly? 】
[It took a year and a half, and this thing is finally completed. This should be the biggest and longest-consuming project that the anchor has ever repaired. 】
[Seeing it again, I still feel shocked. 】
[I really doubt whether such a huge spaceship can fly. This thing is bigger than an aircraft carrier, and the tonnage may not be too much. 】
[I'm more curious about whether the anchor will be open?I can’t drive. I’m a 20-year old driver. I’ve never had any accidents on the road. Apply to play! 】
[The abacus upstairs was made, and I heard the sound when I was abroad. 】
[I can't fly a plane, but I can masturbate. 】
[Dear upstairs, you know how to goof when you fly too many planes. 】
(End of this chapter)
Chapter 538: Spaceship construction completed
The computing power generated by less than 1 lampposts can be compared to a silicon-based chip with tens of billions of transistors. It goes without saying that the performance of this diamond chip is superior.
After continuous experiments and radiation testing, Han Yuan roughly found the secret of its super computing power.
The first is the method of manufacture.
It is completely different from the traditional carbon-based and silicon-based chip manufacturing methods. At present, the core structure of this diamond chip is not processed through etching, developing and other processes.
Traditional carbon-based chips and silicon-based chips are manufactured by subtractive materials, just like engraving on a piece of jade, using a lithography machine to remove unnecessary parts.
And this diamond chip is additive manufacturing. Like a 3D printer, it is manufactured by adding lampposts one by one on a metal base.
When these lampposts are carefully observed under a microscope, you will find that they are like trees in the forest, with different heights and lower heights.
When controlling the different levels of energy stone radiation, Han Yuan found that the number of lights and the corresponding positions of these lampposts are also completely different.
Although the transmission of its light and radiation particles is along a straight line, it can not only be flagged (propagated) along the XY axis, but also can be transmitted from high to low, from low to high, 360 degrees without dead ends.
For example, if you use four candles, put them in a word, place the candles at the four corners, and name them abcd. In this way, there are twelve different kinds of transmissions in just a single transmission from a to b. Way.
And with each additional candle, the number of times a single pass increases exponentially.
According to the fact that each of the more than 7000 lampposts in the core of the diamond chip in his hand can connect to all other lampposts, the total number of sorting and transmission methods of particle radiation can exceed tens of millions.
If one transistor is counted according to each different transfer combination, there are tens of millions of transistor calculation groups in this diamond chip.
And this is only a single transmission method of two lampposts, what if three lampposts are combined for transmission?For example, there are still four candles in the form of words, and they are still named abcd. In addition to the single transfer such as a——>b, there are also a——>b——>c; a——>c——>b;a ——>d——>a Composite transfer, there are actually quite a few transfer paths.
This is like the different numbers of transistors in carbon-based chips and silicon-based chips making up logic gates, and the different numbers of logic gates making up computing circuits.
If calculated according to this method, the total number of sorting transfer methods of particle radiation can exceed one billion.
However, this number is still slightly less than the number of transistors in the current carbon-based chips and silicon-based chips, which can easily range from billions to tens of billions.
The performance comparison between the two is probably the comparison between the latest twelve-generation I5 chip and the previous seven-generation I5 chip.
Although the latter is not bad, but relatively speaking, the performance is still lagging behind.
So in this diamond chip, there should be some way to enhance computing power that he has not observed.
After continuous research, Han Yuan found another reason for the powerful performance of the diamond chip in his hand.
That is the difference in the number of radiation particles transmitted by each lamp post.
Traditional silicon-based and carbon-based chips use the switching of transistors to correspond to 0 and 1, and do binary calculations based on this.
In this diamond chip, Won found that its calculation method depends partly on the propagation of radiation particles, and partly depends on the number of propagating radiation particles.
Under normal circumstances, the number of radiation particles transmitted by each lamp post is one or two.
Here, one radiation particle and two radiation particles do not actually represent mathematical meaning. It does not mean that one radiation particle starts from one lamppost and enters another lamppost, and after adding it, it will become two. .
The number of particles here actually represents a state.
Similar to the power-off and power-on states of transistors in silicon-based chips, they correspond to 0 and 1 in binary calculations.
Although the judgment method and mechanism are somewhat special, the principle is the same.
If one more radiation particle is added, the underlying computing mechanism of this diamond chip will change from binary to ternary.
This is completely possible, he can think of it, and the person who developed this chip can naturally think of it.
So in the follow-up experiments, Han Yuan constantly adjusted the experimental parameters and conditions, trying to find the third radiation particle.
Finally, after nearly a week of experiments, under the specific radiation input of the energy stone, the diamond on a certain lamp post emitted three radiation particles.
The appearance of the third radiation particle made Han Yuan excited.
Immediately afterwards, another experiment under the same conditions was carried out, and the second experiment confirmed that under certain radiation input conditions, the lamp post would transmit three radiation particles for propagation.
Regardless of the small change from the original two radiation particles to three, this represents a change in the underlying calculation system.
Before he developed the Chinese intelligent programming language and carbon-based chips, the underlying computing rules of computers in human society were based on binary.
That is, the two numbers 0 and 1.
After the emergence of carbon-based chips and the Chinese intelligent programming language, binary began to gradually transition to ternary.
Compared with binary, ternary has stronger computing power, and can write more intelligent and flexible programs, so that the computer that can only make judgments before has a third uncertain state.
The same is true for the diamond chip, the propagation of a particle of radiation at the beginning represents the binary calculation.
But with the emergence and spread of the third radiation particle, it means that it may no longer be limited to binary, it has become ternary, and now it is also applicable to ternary calculation.
This discovery made Han Yuan look forward to the next experiment.
Because in theory, since this diamond chip can control three radiation particles for calculation, it is completely possible to control four radiation particles, five radiation particles or even more particles for calculation.
Binary can be promoted to ternary, so can ternary be promoted to quaternary?Can quaternary be promoted to quinary?
Although mathematically speaking, there is not much difference between binary, ternary, and quaternary.
Data calculations that can be done in binary can also be done in ternary and quaternary, but the calculation methods are different.
But in computers, binary computers, ternary computers, and quaternary computers are two completely different concepts.
In fact, the so-called base computer can be regarded as a 'state' computer.
There are only two states of 'true and false' in binary, while ternary has an additional state of 'uncertain' or 'unknown' in the definition of true and false.
Compared with the ternary system, the quaternary system will have one more state, so what will this state be?
Han Won didn't know, he didn't have knowledge and information related to quaternary computers in his mind.
The current human computer scientific research theory believes that the four states of the quaternary computer are [True] [False] [Unknown] [False True].
The first three kinds of won know and are also used in the carbon-based chips he is currently using.
But whether the fourth state is [false and true], Won is not sure whether it is.
One is that no one has ever proven it.
Second, he feels that the fourth state may not necessarily be true or false.
Because the definition of false truth is actually very similar to the 'unknown' in the ternary system, and it is also a kind of fuzzy state.
Just as there is no absolute good or evil in the world, computers sometimes don't know whether the data is true or false.
If this type of data is divided into false and true, it can actually be divided into unknown.
So when it was confirmed that this diamond chip can perform binary and ternary calculations, South Korean Won was particularly excited.
He is looking forward to the emergence of quaternary computing chips.
For a computer, the more states it can simulate, the closer it is to human thinking.
Quaternary computers, or four-state computers, are theoretically more advanced than ternary computers.
This advancement is not reflected in saving energy, saving components, saving storage, etc.
If you want to save things like energy consumption and storage space, the e-ary system is the most economical.
But for a computer, the more states it can simulate, the higher its intelligence and performance, there is no doubt about it.
As for energy, storage space, and component loss, these things are not worth mentioning in front of the level of intelligence.
Just like after the development of controllable nuclear fusion technology, he has no shortage of energy in a short period of time.
In the case of no shortage of energy, it is naturally the most important to improve performance.
So Won wants to find the fourth state of the quaternary computer from this chip.
In the next half a month, South Korean won was looking for the fourth state in the diamond chip.
But no matter how he adjusted the radiation released by the energy stone, the fourth radiation particle did not appear.
"Maybe I'm thinking too much, how can a quaternary computer appear so easily."
Han Yuan shook his head, ready to give up temporarily.
After nearly half a month of searching, the fourth radiation particle still did not appear.
Half a month is not a long time, especially when developing a new technology, let alone half a month, even if there is no harvest for half a year, it is normal.
But it is impossible for him to waste half a year on this.
If it can be determined that this diamond chip is a quaternary chip, it is okay to say that it will take some time to find it at most.
The problem is that he can't now determine whether the chip has a fourth state.
Although theoretically speaking, it can fully possess the fourth, or even the fifth and sixth states.
But after all unknown.
In this case, it is not appropriate to spend too much time looking for it.
After all, his time is very tight, and there are less than four months left in the second year, and there are other things to do in the follow-up.
This kind of matter of finding the fourth radiation particle is left to Xiao Ling to do it.
Han Yuan still hopes to find the fourth radiation particle. As long as he can determine the state indicated by the fourth radiation particle, he can further express it on the carbon-based chip.
On this basis, if we modify the underlying code of Xiaoling to adapt it, the level of intelligence will definitely be improved to a higher level, and it is even possible to transform into an artificial intelligence life.
After handing over the search for the fourth radiation particle to Xiao Ling, Han Yuan came to the shipyard where the spaceship was built again.
There are less than four months left in the second year, one hundred and six days to be exact.
In the second year's mission, he has completed the basic tasks of the resource collection side-chain mission and the galaxy data collection side-chain mission, leaving only the last "overlooking the earth" that has not moved.
The requirement of this mission is that he personally land on another planet and look down on the earth from the other planet.
If it's just going to other planets, it's not difficult for him.
Ordinary space shuttles can do it.
But when it comes to your own safety, you still have to be cautious.
In the dozens of missions performed by the space shuttle in the past, there have been accidents, and even a space shuttle has crashed.
So Won doesn't really want to take the space shuttle to the moon.
If the unmanned spaceflight falls, it will fall, and it will only lose a space shuttle.
But if the manned spaceflight fails, it will be cheating.
The spaceship is different, with a huge volume, the six completely independent sub-chambers are equipped with a power system and an independent life support system.
As long as all the cabins are not destroyed at once, people will be fine staying in it.
And even if there is a problem with a certain part, it can be discarded directly. Even if there is only one sub-cabin left, it can fly back to the earth or land on the moon.
The last time I came to the dock, the overall completion of the spacecraft was already quite high.
This time again, the audience in the live broadcast room is quite concerned about the construction progress of the spacecraft.
Through the live broadcast, the audience can see that the armor coverage that was not completed last time has been completed this time.Moreover, all the platforms surrounding the spacecraft have been dismantled.
In the dock, all the industrial robots that were originally dense have disappeared at this moment, and only a huge spaceship stands there quietly.
This excited the audience in the live broadcast room.
[Looking at it, this spaceship has finally been repaired. 】
[Can you fly? 】
[It took a year and a half, and this thing is finally completed. This should be the biggest and longest-consuming project that the anchor has ever repaired. 】
[Seeing it again, I still feel shocked. 】
[I really doubt whether such a huge spaceship can fly. This thing is bigger than an aircraft carrier, and the tonnage may not be too much. 】
[I'm more curious about whether the anchor will be open?I can’t drive. I’m a 20-year old driver. I’ve never had any accidents on the road. Apply to play! 】
[The abacus upstairs was made, and I heard the sound when I was abroad. 】
[I can't fly a plane, but I can masturbate. 】
[Dear upstairs, you know how to goof when you fly too many planes. 】
(End of this chapter)
Tap the screen to use advanced tools
Tip: You can use left and right keyboard keys to browse between chapters.
You'll Also Like
-
Three Kingdoms: How did a cube-like person like me become a god?
Chapter 78 1 hours ago -
Collapse Iron: Infinite Dragon Beast, invited to join the Immortal Boat
Chapter 120 1 hours ago -
Konoha: Harem chat group, I can make up the future
Chapter 60 1 hours ago -
Man sailing: All the monsters of the old times are on my ship
Chapter 78 1 hours ago -
Food: I became Erina’s food demon at the beginning
Chapter 314 1 hours ago -
Review of the exposed Saiyans: Shocking Collapse of Iron Zone Zero
Chapter 68 1 hours ago -
Collapse: Secret authority exposed, I play against the Star God
Chapter 102 1 hours ago -
Zongman: I was loved by Esdeath in my female attire
Chapter 121 1 hours ago -
I Am the Fated Villain
Chapter 2504 18 hours ago -
Divine System of the Strongest Card Supplier in the End Times (Doomsday Strongest Cards Supplier)
Chapter 4241 18 hours ago
