Free Web NovelChapter 1296: Chapter 621: Spaceship Design Completed!_2
"Now, any sophisticated instrument is less important than having a complete software system, especially control systems,"
"While the device does not require overly complex algorithm systems, having efficient systems makes control and operation much simpler and more precise."
"For the current issue, there’s no need to halt the experiments and create a new set of electronic control systems from scratch. After production is complete, we can simply use an external power facility to bring the reaction intensity to the lowest level, and then upgrade the system."
Zhao Yi directly offered a solution and continued, "It would be best to establish a dedicated computer team to address software-related issues."
Everyone listened and nodded in agreement.
The problem had been identified, and a solution conceived; everyone breathed a sigh of relief and then left together. frёewebnoѵel.ƈo๓
The next day, the nuclear fusion experimental group held an internal meeting.
The discussion revolved around the issues encountered during the experiments. frёeweɓηovel.coɱ
Zhao Yi directly pointed out the problem and then suggested the formation of a specialized computer team.
How to establish this computer team was the question.
Zhao Yi’s suggestion was to set up a small group solely responsible for software-related issues.
"This team is essential," Zhao Yi said earnestly, "Not just for creating a new electronic control system, but also for the ongoing maintenance."
"Moreover, I’ve noticed many projects generally undervalue software."
"Looking at the display of the data reporting, it’s a complete mess!"
This was a fact.
Most domestic projects did not pay much attention to software infrastructure; some collaborative computer labs provided only algorithmic support, ignoring interface display issues.
The objectives for these software-related tasks were merely ’functional,’ ’error-free,’ with ’user comfort’ and ’simplistic appearance’ not even considered.
If this were the consumer sector, like smartphone software or operating systems, where the goal was only ’functional’ and ’error-free,’ the manufacturers waiting for such outcomes could only expect bankruptcy.
Of course, to some extent, it was unavoidable.
This was a problem of work motivation.
If there were dedicated computer team support, coupled with the attention of the leadership, the situation would be much improved.
The meeting quickly decided to establish a dedicated computer team.
Relative to the entire nuclear fusion device, maintaining a computer team was not considered a problem at all; this was a lesson learned from the issues with the electronic control system.
The meeting concluded.
The nuclear fusion device would continue to operate for a very long time, and the nuclear fusion research team would carry on with the tasks of checking, recording, and correcting.
The others could leave.
This experiment could be considered mostly successful, with power output issues along the way affecting the solution; it was tending towards perfection.
One week after the experiment concluded, the nuclear institute announced the news of the experiment.
What they announced were the results of the previous experiment—
Significant progress had been made in the development of the nuclear fusion device, which operated for seven hours. While maintaining the device’s operation, power output was achieved!
This announcement immediately caused a global sensation.
The academic community had always believed that nuclear fusion was the future of energy, with many countries investing heavily in the development related to nuclear fusion.
After Zhao Yi published the Anti-gravity Particle Inertia Theory, many related institutions dove into the development of Anti-Energy shields.
Anti-gravity technology could cause particle degradation, providing the best means to control internal reactions in nuclear fusion; Anti-Energy shields could block energy, acting as the optimal isolation barrier for nuclear fusion.
Together, these two technologies were certainly theoretically capable of achieving controlled nuclear fusion.
Controlling nuclear fusion in this way was far more promising than magnetic confinement control; first because the methods of control were highly effective and the operability extremely strong.
Secondly, the cost was very low.
The previous magnetic confinement control theory estimated the cost of creating a perfect magnetic confinement device to reach hundreds of billions of dollars.
This cost was detached from reality.
In comparison, whether it’s anti-gravity technology or sustaining an Anti-Energy shield, neither required high costs.
Now, the domestic research groups announced significant progress with the nuclear fusion device, and one aspect that demanded attention was the continuous operation for seven hours.
This was very significant.
If nuclear fusion could be maintained for one hour, then it could be extended to last even longer, and if the reaction could persist for seven hours, it was certain it could be prolonged to a day, a month, a year, and so on.
Technology would definitely continue to advance.
It could now be said that achieving controlled nuclear fusion was merely a matter of time.
The research achievements announced by the nuclear institute sparked a heated global debate.
The general public cared about the results; they felt that controlled nuclear fusion would soon be realized, and energy would no longer be an issue.
The impact would be immense.
For example, the prices of crude oil and natural gas plummeted.
Any field related to energy was no longer viewed optimistically.
The professional research institutions, however, were focused on the technologies that would enable controlled nuclear fusion, and there was no doubt that the domestic research relied on anti-gravity devices and Anti-Energy barriers to achieve controlled nuclear fusion.
But what they had always been researching was how to maintain Anti-Energy shields indefinitely?
