With the support of the server, the hard drive enclosure has been transformed into a data processing center.
To compensate for the CPU's computing power, Xing Baohua added an additional dedicated computing module.
With the addition of a satellite communication system, the FAST telescope can search areas within 400 kilometers, except for those underwater.
No matter what kind of formation comes, whether it's a mixed formation, a double formation, or a triple formation, a single Sky Eye can command multiple combat groups to carry out indiscriminate strikes.
Through data sharing, the accuracy of land-based express delivery services has been increased. The error of 1700 kilometers can be reduced at least a little.
Modern information warfare emphasizes speed; however, Xing Baohua was unaware of the performance and functions of our own satellites.
Especially bandwidth and speed.
If the bandwidth requirements can be met, satellites could be used as data relay stations, directly connecting to land-based command centers. Perhaps a connection to a supercomputer could be established? Maybe try interception at speeds exceeding Mach 10?
It might not be very effective, but it's definitely top-notch at bluffing.
Let Geng Rui ask about the data from our satellites. If it really doesn't meet the requirements, could we build a few?
We don't bully others, so we just hang it on our own door for defensive communication purposes.
When Xing Baohua learned that it was still only 56K bandwidth, he shook his head slightly. Such a narrow bandwidth couldn't withstand the onslaught of massive amounts of data!
The satellite's modular design allows for future expansion; once the satellite's bandwidth reaches the required level, a data synchronization module can be added.
Xing Baohua was indeed slow in drawing the huge and complex motherboard circuit diagram himself, and then the elite troops from the Ministry of Electronics Industry came to support him.
Assisting Xing Baohua with drawing and sketching gave this guy some time to slack off.
The support team consisted of researchers from the following institutes. Their salaries were generally quite high; the lowest-ranking was a junior engineer, while the others were chief engineers.
At work, they're all senior figures, directing large groups of people to do their jobs. But when they come to the cave, they're just lowly soldiers.
The Sky Eye Project is a top-secret mission and a crucial project. Being able to work here, even as a lowly soldier, is an honor.
As the section chief, Xing Baohua never dreamed he could command these chief engineers.
Moreover, it's better to ask these people for information than to have Geng Rui run errands.
Xing Baohua's multi-path modular motherboard received praise from seven chief engineers, who even provided them with some insights.
In the future, when designing circuit boards, don't think about soldering the main electronic components to the motherboard. You need to be flexible and use hot-swappable technology for quick replacement, which is convenient and practical.
Xing Baohua felt embarrassed. To be honest, he really didn't recommend promoting it this way. It could be done in specific environments and under specific conditions, but it shouldn't be used as a regular practice.
There are many taboos associated with working on live wires!
If you carry static electricity and touch a motherboard that is powered on, well, there will be lightning and sparks.
Replacing modules requires safe operation. The people on the Sky Eye machine must undergo rigorous training before they can work. Xing Baohua believes they will follow the safety manual's requirements strictly when operating the module replacement work.
With help, Xing Baohua was able to free up time to assist Zhang Dongshuo and also to help Xiao Tian.
Subsequently, Xing Baohua notified Xie Yingying to contact the Samsung Electronics factory in his hometown to send him a thousand memory modules.
There are two types of memory: granular memory and storage memory.
Memory chips are used for RAM, while storage memory is used as a solid-state drive.
These things are very expensive and not suitable for commercial PC builds. They are only suitable for custom builds or for high-end PCs.
A memory module is made by mounting individual memory chips onto a memory stick.
The same principle applies to solid-state drives (SSDs). When you disassemble an SSD, you'll see many small memory modules soldered onto a circuit board. The only difference is the underlying data writing process.
While hot-swappable modules have advantages, they also have significant disadvantages. They are prone to loosening, the contact points are easily oxidized, or they may become loose and short-circuited during vibrations.
This is easily solved by adding a rigid latch to the side of the module, similar to the latching mechanism used in laptop memory.
The safest approach is to solder these small memory modules directly onto the motherboard; statistically, the probability of them failing is very low.
Given the turbulence of an airplane, soldering it onto the motherboard is the safest option.
Xing Baohua had thought about it too, but his CPU was too bad, and overclocking might not necessarily burn out that one thing.
If the CPU burns out, the motherboard's power module will definitely burn out, and even resistors might burn out. If the control power module burns out, it may also burn out the memory or hard drive.
These are all possibilities. You can't exactly take the motherboard apart and repair it on a plane with a soldering iron when it burns out.
If any hot-swappable module fails, it can be easily replaced. Initially, the cost may be slightly higher, but as technology and processes improve, the price of the module will decrease.
Once the memory modules arrive, things become much easier. Resistors, capacitors, information processing ICs, power ICs, cache databases, etc., are soldered onto the circuit board, and then the memory modules are soldered on, and the modules are produced.
To write the underlying data on the computer and access the read/write database, a short circuit using an engineering cable is required.
This short circuit is actually the strongest form of protection.
To mimic a remote hacker forcibly swiping data, a short circuit is created by connecting two metal solder points together to form an electrical connection. Because it is a low-voltage circuit, no sparks are visible.
This short circuit activates a data port, allowing data to be written. For a remote hacker to intrude, this short circuit alone is enough to prevent intrusion, unless someone else performs the short circuit for them.
During Xing Baohua's time, this short-circuit technique was used not only for computer repair but also for flashing mobile phone firmware.
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