Duke did not expect that some of the gadgets he and Dong Feng talked about later became killers that made the country equipped with American weapons very troubled. Since these defensive early warning devices are passively received, they can stare at their oceans and sky without stopping, making American fighter jets or warships and frontier dynamics on the battlefield almost impossible to hide, because as long as they communicate, they will be discovered.

However, these things are still a concept now. Although Duke has solved the relevant technologies when studying the Global Hawk surveillance system, DSM research experts can only customize the communication characteristics of American equipment on this basis, but it still takes time to study the many equipment communication methods of the US military, so that this new monitoring device has adaptive recognition capabilities.

And these things are not something Duke has time to do. He has already studied a lot of things. In the second half of 2019, the most important thing is to crack the latest captured avionics systems of the US and Japanese fighter jets, as well as various electronic control systems on warships, especially the F-22/F-35 avionics systems and the Aegis systems on the Japanese warships.

Although Kerry has super cracking capabilities and is fully competent for cracking and reverse engineering research of this complex system, now in full view of everyone, Duke is Superman and dare not act too much, so he deviates and spends a lot of his effort on establishing super computing centers for various research units and updating their research environment to promote this work research.

Since the release of G series chips, using the G series chips developed by Williams, the independently operated super minicomputer team of SAL has continuously completed the design of new minicomputer clusters.

The latest generation of super minicomputer system uses the 16-core G2E enhanced chip newly developed by Williams' team, and the new ultra-high-speed optical transmission technology newly developed by the SAL transmission team has increased the data exchange between minicomputers by more than ten times. In this way, the speed of the new minicomputer cluster computing center developed using these new technologies can be comparable to the current mainstream supercomputer systems in China.

However, compared with supercomputer systems, the construction and configuration of the cluster system developed by SAL Company is more flexible. It can be composed of 16 to 1024 sets of supercomputers through special integrated modules, so this system can be copied and promoted very conveniently on a large scale. With the support of technical personnel in the SAL server department, it only takes a few days to build a set of G series minicomputers into a cluster computing center with supercomputing speed.

With this thing, all R&D units participating in the Shenlong Project have now replaced their guns and established super computing centers. Although these super computing centers are expensive and usually start at over 100 million yuan, since SAL now has sufficient cash flow support, if these research institutes participating in the Shenlong Project cannot directly borrow from the bank, SAL will provide them with direct installment loan model or guaranteed loan method.

This will allow every research institute participating in the Shenlong Project to have the ability to complete the construction of the super computing center in advance, and then repay the loan through product sales. This method allows Duke's R&D units to complete the construction of a computing center of hundreds of billions of yuan in a very short period of time and build hundreds of super computing centers with different computing speeds. Although this will make SAL bear greater financial risks, for Duke now, time is more important than money. As long as it can be solved with money, it is not a problem. Moreover, Duke believes that under his control, these research units have no reason to fail to produce results.

With such a huge computing foundation, Duke can turn the cracking work of the system into pieces and hand it over to the following computing centers for cracking separately. The most critical steps in these cracking work are often completed by Kerry and formed algorithm solutions and delivered to the subordinate computing centers for perfect execution. This way the entire cracking work progress is astonishingly fast.

Whether it is Aegis or the avionics system of US fighter jets, the cracking of the software part in these different super computing centers is simply unstoppable, and the results can often be seen in a few weeks. By the end of 2019, most of the seized things were cracked.

Although most of these things are technologies studied by the US military more than 10 years ago, these things are still rare treasures in China. With Duke's intelligent analysis engine and G2E, a new generation of computing chips, the domestic airborne radar fire control system and the Chinese ASUS system have once again experienced a leap forward development.

The Air Force airborne phased array fire control radars, Thor-10A and Thor-20A, among these two radars, Thor-10A will serve as the fire control of multi-function fighter bombers. The Thor-20A is the fire control of an air-optimal combat fighter, which is equipped on the Air Force's new third-generation and fourth-generation fighter jets, or on the transformation of the current J-10C/J-11C and J-20/J-21 fighter jets. These two radars are even better than the US APG-81 and APG-77. After all, with the Duke intelligent analysis engine, more accurate analysis results can be obtained under the same signal size obtained.

With this kind of radar, even if it is single-player combat, it will no longer lose to the US military in terms of radar fire control systems. Now, in terms of avionics, with this thing plus the joint combat tactical system of the theater, when leaving the air early warning aircraft, the PLA fighter jets will completely surpass the active fighter jets of the US military. With the early warning aircraft, the US fighter jets will not be opponents. With the guidance and command of the early warning aircraft, it can give the Air Force fighter jets a cluster attack advantage.

Through decryption and innovation, we can catch up with the avionics level of US military fighter jets 10 years ago, indicating that domestic avionics systems have begun to fully approach the world's leading level. If the US military does not modify the new avionics system and fights with the People's Liberation Army with the current fighter jets, neither the F-22 nor the F-35 will gain any advantage.

Based on the Thunder God-10A, the DSM research department has also completed the export and naval Thunder God-20M multi-function phased array radar. This simplified version of Thunder God-10A has a simpler structure and lighter weight. It will become the new JF-10P fire control radar. With the weight of Thunder God-20M, it will not have any special impact on the light JF-11 fighter jet, but its practicality is not weak at all. It can be competent for air and ground-to-sea combat missions. It has a much worse function than the US APG-81 fire control radar, but its manufacturing cost is much lower. For future naval carrier-based aircraft J-15/J-18, this light and thin radar will be a good main fire control radar.

The technology obtained by decrypting the SPY-1A radar in the Aegis system has given birth to a new generation of Chinese Aegis C/SPY-2A and aerial early warning aircraft radar Tianmu C/APY-2A, greatly improving these two relatively weak areas in our army.

The new generation of Chinese ASCHUN C/SPY-2A has a maximum air search distance of more than 600 kilometers. It can monitor 1,000 aerial and maritime targets at the same time, and automatically select 100 of the most threatening targets for tracking and locking. It can cooperate with the fire control radar to complete simultaneous attacks on 32 dangerous targets.

These indicators are more powerful than the captured Aegis system, because the signal analysis intelligent engine and small computer clusters used in the entire system far exceed the performance of Aegis. The efficiency of artificial intelligence signal analysis and target selection analysis algorithms provided by Duke are both higher than the top level of the world's computer level.

With the Chinese ASCHUN C/SPY-2A, through the domestically produced Triton VLS-32 and VLS-64 carrier-based 32-unit/64-unit general vertical launch systems, the launch of the new Haihongqi-16B short-range air defense missile or Haihongqi-15B long-range air defense missile can be provided with a strict air defense system for naval ships. The Haihongqi-15B long-range air defense missile with a range of up to 350 kilometers can effectively intercept most long-range cruise/ballistic missile attacks and fighter jets.

There is no better news than this for the two large aircraft carriers and four large destroyers that have completed the main body's upcoming launch, because this means that the most important technical milestone has been completed. In this way, there will be no major technical difficulties in launching the water for sea tests by New Year's Day 2020. This is of course a very important news for the current navy, so when the results are appraisal, senior generals such as Deputy Commander Liu Fengwu and other high-level generals attended the results appraisal meeting and were very satisfied with the performance of the new Chinese ASUS static test.

Due to the new R&D incentive mechanism and a good R&D software and hardware environment, and the deciphering and seizure of various new systems of the US, Japanese Navy and Air Force as reference objects, when the Shenlong Plan was implemented by the end of 2019, various achievements of the Shenlong Plan almost exploded, and technical experts in the final assembly's results were almost too busy. The appraisal time from New Year's Day to March basically arranged the entire schedule slowly, and even the Spring Festival can only be on holiday for 3 days.

In terms of radar, not only did the main radar of the navy and air force make breakthroughs, but the ground radar has also made many new progress. The Sky Eye-10 radar and Sentinel-1 radar systems have also been released, with greater power and higher detection accuracy.

In terms of crucial aero engines, four key engine electronic drawing designs, including WS-10D, WS-13D, WS-18, WS-20B, have passed simulation and simulation tests and have begun to enter the production stage of prototype No. 1...

The results are blown out, which is a very happy thing for anyone, except Duke, who is the general manager. Although he does not want to waste his time on trivial matters such as the results appraisal, it is really hard to denied such things. Every new model must pass the national appraisal to allow participating experts to obtain promotions and awards. Duke may not care about these false names, but the people who work below still need these honors very much.

It was a busy harvest season for Duke. If there wasn't a new accident in Bileme, everything would be under Duke's control.

(PS1: The first update today. If there is no accident, it will be placed at around 6 pm. The 1 update this month at the end of the year will be guaranteed. If there is a monthly ticket reward, it will be placed on the second day. There is also a chapter to update the book friend qxg monthly tickets, and continue to call for monthly ticket support!

PS2: This book is still a bit far from the end, and the next step will enter a more sci-fi era.)
Chapter completed!