上海419论坛2021 – 爱上海419论坛-上海后花园论坛-夜上海论坛-上海品茶网

The issuing time of the third batch of indoor skating experience tickets in Haidian, Beijing in 2025 (with the entrance of the ticket)

　　Guide to Beijing Employment Subsidy Application

　　1. What employment subsidies can Beijing apply for?

　　A: The types of subsidies that can be applied for in Beijing are:

　　▼ Vocational training subsidies

　　▼ Vocational skill appraisal subsidy

　　▼ Employment trainee subsidy

　　▼ Employment and entrepreneurship subsidy

　　▼ Social insurance subsidies

　　▼ Public welfare post subsidy

　　Second,Employment subsidyApply for entrance:

　　▼ Beijing Municipal Bureau of Social Security: http://rsj.beijing.gov.cn/

　　▼ Beijing 12123

　　Recommended reading:

　　Beijing Employment Subsidy Application Guide (Application Entry+Subsidy Type)

　　A picture to understand the employment subsidy application policy

　　How to apply for employment subsidy? Attached application platform

　　In 2020, the list of employment subsidy policies and the first batch of local online application platforms will be released.

Tips: Search WeChat official account Beijing Local Treasure on WeChat, and reply [Employment Subsidy] in the dialog box after paying attention, and you can get the latest news, application platform, application guide and social security 12123 download portal of employment subsidy in 2020.

On-line sales for two hours broke 10 million Jay Chou’s new song ＂Say Good Don’t Cry＂ late at night.

　　Beijing Evening News (Reporter Gao Qian) At 23: 00 yesterday, Jay Chou’s new song "Say Good Don’t Cry" was officially launched and instantly reached the top of major online platforms. In the WeChat circle of friends, "Say No Cry" and "swipe the screen"; On Sina Weibo’s hot search list, among the top five, the content related to Jay Chou and Say Good Don’t Cry accounted for three. Because of the large number of searches and visits, some functions of QQ music, one of the distribution platforms, are paralyzed, and "QQ music collapsed" has also become one of the hot searches.

　　According to preliminary statistics, during the two-day pre-sale period, the pre-sale amount of 3 yuan’s single in QQ music has exceeded 3 million yuan; Seven minutes after the launch, the sales volume of QQ music of Say No Cry exceeded 5 million yuan, reaching the certification of "Diamond Record"; Two hours later, the total data of QQ Music, Cool Dog Music and Cool Me Music showed that the sales of Say Good Don’t Cry had exceeded 10 million yuan.

　　It is not difficult to understand the "explosion" of "Say No Cry". Jay Chou is the most "national" singer in Chinese music today. In recent years, the speed of Jay Chou’s new work is not as fast as before. "Say Good Don’t Cry" is a somewhat "long-lost" work, more than 400 days have passed since Jay Chou’s last single "Don’t Love Me", and his latest album was released in 2016. In production, "Say Good Don’t Cry" continued the golden combination of Jay Chou’s composition and vincent fang’s lyrics, and A Xin, the lead singer of Mayday, also sang a chorus, which was the biggest surprise. In addition, the MV starring Ayaka Miyoshi and Keisuke Watanabe, a new generation of Japanese actors, is also full of topics, and the bridge of the movie "Unspeakable Secret" is implied, which has evoked memories of countless young people.

　　Say Good Don’t Cry has a typical style of "Zhou’s love song". The piano is the main story line of the whole work, and the strings weave lyrical scenes, creating an atmosphere of love movies. The lyrics are unfolded from the perspective of the hero and tell a story about "perfection" and "agreement". Many netizens left a message, "Say Good Don’t Cry" is delicate and touching, and it has found the shadow of Jay Chou; After many years of debut, Jay Chou, who accompanied everyone to grow up, is still the "person who knows youth best".

　　But this song is not one-sided praise. Since around 2010, Jay Chou’s works have been questioned by "no longer the same year", except for several songs such as "Confession Balloon" and "Waiting for You to Class", and there are few classics that have been sung for as long as before. Many netizens believe that the melody of "Say No Cry" is slightly mediocre and has insufficient flavor. The lyrics of vincent fang’s writing, which has always been regarded as never failing, have also been questioned. Although vincent fang indicated in Weibo that "the meaning of words is biased towards the narrative style", many people still feel that the lyrics of Say Good Don’t Cry have lost their sense of surprise and become somewhat "drooling".

　　Music critic Sanshiyi thinks that, on the whole, Say Good Don’t Cry is a work above the passing line. If the score is 5, the song can get 3.5 points. "The melody is pleasant and the arrangement is solid, but the momentum is not enough." Perhaps in everyone’s ears, "Say No Cry" is always imperfect in one way or another, but the great attention and discussion it attracts is enough to prove that Jay Chou’s position is still difficult to shake. "The so-called king does not necessarily represent his current combat effectiveness, at least it represents his far-reaching influence." Sanshiyi also believes that the sales performance of Say No Cry also reflects the evolution of copyright awareness. "When Jay Chou was worth spending money, few people really spent money on him, and they all borrowed albums or bought pirated copies to listen to it. Nowadays, fans are gradually growing up, and many people are beginning to realize that it is really necessary to pay back a song that was owed to him before. It is really necessary to sell a song that is not worth 10 million. Look at the future before you look at it. "

Micro-nano Robot： Exploring the Mysterious Micro-world

　　Author: Huang Tianyun (researcher, Department of Advanced Manufacturing and Robotics, State Key Laboratory of Micro-nano Machining Technology, State Key Laboratory of Turbulence and Complex Systems, Peking University Institute of Technology)

　　For human beings, there are still many puzzles in the micro world — — Little is known about water bear worm, the most tenacious micro-organism on the earth, micron-scale Escherichia coli known as "microbial factory", even nano-scale phage that can parasitize in Escherichia coli, and DNA encoded by molecular genes containing mysterious origin of life. For nearly half a century, people have been eager to create a micro-robot that can enter the micro-world, put on the "soft hedgehog armor" of water bears, sneak into the "brain" of E.coli, listen to the "whisper" of bacteriophages, direct gene synthesis of protein, cooperate with cells to complete the evolution of life, and "see" what happened in the micro-world instead of human beings. Maybe in the near future, this wish will come true — — Micro-nano robot.

　　The microscopic world with a unique hole in the sky

　　Micro-world is a magical and unknown "land of bliss", and there are many incredible magical scenes. With the decrease of size, the micro-scale spatio-temporal effect gradually appears. Here, the surface area of an object increases in inverse proportion to the volume ratio, which means that in the micro-scale world, the energy dissipation is more intense, the metabolism of living beings is accelerated, and the life cycle is shortened; The low Reynolds number characteristics of microfluidic environment show that viscous force is dominant, inertial force can be ignored, and the object seems to be placed in very viscous honey. At the nanometer scale, objects will be subjected to more intense intermolecular interactions, such as van der Waals force. At this time, the action of gravity on the object can be approximately ignored, at the same time, the mechanical collision of molecules is more obvious, and the irregular Brownian motion is relatively more intense.

　　In this seemingly extremely harsh micro-world, there are many kinds of tiny agents, which show tenacious vitality and strange functions. For example, the water bear worm is a kind of submillimeter-long micro invertebrate. With its unique physiological structure and powerful gene repair ability, it can show its unique hidden "stunts" when the environment deteriorates, so as to withstand extreme environments such as extreme heat and drought, extreme cold and freezing near absolute zero, high altitude hypoxia, deep-sea high pressure and high-dose radiation in outer space. In the microbial world, which is difficult to distinguish with naked eyes, there are still a surprising number of micron-sized single-celled organisms, such as original vivid plants, bacteria, fungi, mycoplasma, chlamydia and so on. They are widely distributed in nature and are closely related to human production, life and survival. In addition, viruses composed only of nucleic acid molecules and protein’s protective shell, because they do not have complete cell morphology and are separated from the host, can not independently complete metabolism, and are usually considered as nonliving. However, they have the ability to selectively absorb the host and complete self-replication and proliferation with the help of the raw materials provided by the host cells after invasion, showing amazing swarm intelligence and behavior.

　　Moreover, the operation of the micro-world is highly organized. As we all know, cell is the basic unit of organism, and its interior is more like a complex and busy but well-organized "micro-machine factory". The nucleus is the control center of the factory, where the DNA encoded by information is copied and transcribed into mRNA under the catalysis of enzymes. After splicing and modification, the mRNA enters the cytoplasm and is in the synthesis workshop in protein — — Translation is carried out in ribosomes, and many individual amino acids are assembled into protein long chains. These protein are packaged and decorated, and the protein driven by "freight locomotive" is transported to the designated area with microtubules as guide rails. The locomotive power is provided by the molecular fuel cell ATP produced by oxidative metabolism of mitochondria in the "power station" in the factory. How to make the whole operation process of this micro-machine factory so accurate, controllable and efficient has always been the ultimate mystery of life that scientists hope to solve. It is of great significance to reveal the mystery of micro-life, improve the efficiency of biosynthesis and improve the direction or path of biological metabolism, and can provide important technical support and material guarantee for the sustainable development of mankind in the future.

　　Micro-nano robots born for exploring the micro-world.

　　Nature is ingenious, and it can build such exquisite intelligent life bodies as DNA, ribosome, phage, Escherichia coli and so on on the micro-nano scale. In engineering, scientists are also trying to imitate the way of nature, create similar artificial agents at the micro-scale, use them to enter the micro-scale, participate in regulating the growth and evolution of life in different dimensions and stages, and finally realize self-organization and emerge controllable systematic macro-behavior through the interaction between these artificial micro-machines and organic life.

　　Here, let’s roughly define "micro-nano-robots": they are intelligent micro-mechanical systems, usually ranging in size from submillimeter to tens of nanometers, and are considered to be used to adaptively and autonomously complete controllable micro-operations in complex micro-scale environments.

　　The miniaturization of machines provides a new perspective and an effective tool to explore the micro-world, and the development of micro-nano robot technology is of great significance to explore the mysteries of life. In terms of scientific research and exploration, as one of the important branches of advanced robotics, micro-nano robotics is a new interdisciplinary subject with many major scientific problems and cutting-edge hot technologies, covering physics, chemistry, biology, mechanics, materials science, micro-nano manufacturing, micro-electromechanical systems, robotics, micro-dynamics, microelectronics, information and control, bioengineering, biomedicine, clinical medicine and many other disciplines.

　　Speaking of the history of micro-nano robots, we may date back to the 1960s. Richard feynman, an American theoretical physicist and Nobel Prize winner in physics, first mentioned nanotechnology in a speech delivered at California Institute of Technology on December 29th, 1959. He described this magical technology as follows: "There is enough space at the bottom". This epoch-making exposition not only established the concept of nanotechnology, but also heralded the arrival of micro-nano robots and nano-medicine era.

　　According to Feynman, Albert Hibbs, his doctoral student at that time, first put forward the bold idea of "devouring surgeons" and pointed out that "it may be possible to permanently implant some tiny machines in the body to help some organs with insufficient functions work normally". This "crazy" idea was later adapted into the plot of reducing the submarine to the size of microorganisms and injecting it into the human body to repair brain damage through miniaturization technology, and it was made into the famous sci-fi movie Fantasy Voyage.

　　It is worth mentioning that this idea of entering the body in miniature had a similar plot as early as in The Journey to the West, a book written in the middle of Ming Dynasty in ancient China. For example, the Monkey King turned into a flying insect and drilled into the belly of an iron fan princess, and he could change his size as he pleased. The fairy tale Hu Gong written by Ge Hong in the Eastern Jin Dynasty in China also mentioned a spell similar to miniature space-time: "(Fei Chang) The room has magical power, which can shrink the pulse of the earth and exist thousands of miles away, but it is now natural."

　　Half a century later, in 2008, Feynman’s wonderful idea was finally successfully realized by the research team of Swiss Federal Institute of Technology in Zurich — — Artificial "magnetic mite" The size of this mechanical mite is in the sub-millimeter level. Under the control of high-frequency oscillating magnetic field, the inertial impact generated by the collision of dislocated magnetic blocks is transformed into the forward driving force, so as to realize the precise control of tiny objects. In 2009, the team developed an artificial "bacterial flagella" through the spiral motion of bionic Escherichia coli. This three-dimensional micro-spiral made of nano-heterogeneous film self-curling technology can complete accurate targeted drug delivery under the control of low-field rotating magnetic field.

　　Early research focused more on exploring how to design micro-actuators that convert various forms of energy into mechanical energy, so it is often called micro-nano motors figuratively. In recent years, with the rise of soft materials, micro-nano additive manufacturing and artificial intelligence, micro-nano robotics has begun to develop from a single structure to an intelligent direction to adapt machines to micro-scale complex environment and multi-task requirements.

　　Nowadays, the research of micro-machine intelligence has taken shape, including micro-power and precise operation, micro-mechanical gain, software adaptability, flexible continuum, modular reconstruction, information storage and processing, hybrid hybrid advantages, bionics and optimization, micro-system integration, self-organizing interaction and swarm intelligence, and molecular self-assembly/replication/growth. At present, the most advanced work in this field is trying to explain or solve the core problem of how to give machines real intelligence at the micro scale, which points to the ultimate goal and the highest stage of micro-machine functionalization: micro-machine intelligence or micro-scale artificial intelligence.

　　It has broad application prospects.

　　In recent years, the emerging advanced materials and nanotechnology have promoted the rapid development of micro-nano-science. The research involves many frontier directions, such as controllable self-assembled molecular motors and DNA origami at molecular level, composite mechanical transmission devices at micro-nano scale, reconfigurable flexible variant micro-machines, hybrid electromechanical systems, integrated micro-electronic micro-machines, interactive nano-brain-computer interfaces, and millimeter-scale micro-robots such as flapping-wing mechanical insects. These artificial micro-machines have the unique advantages of small size, non-destructive and minimally invasive, ultra-light and portable, accurate control, high functional integration, easy to manufacture on a large scale, and micro-scale performance such as ultra-high sensitivity and responsiveness, enhanced stability and robustness, and extremely low energy consumption, which has an irreplaceable role in promoting technological innovation and scene expansion in many fields such as precision medicine, environmental engineering, intelligent manufacturing, life sciences and artificial intelligence.

　　In medicine, micro-nano robots have great potential in precision medical fields such as minimally invasive intervention, targeted delivery, rapid treatment, early diagnosis and tissue repair, such as using micro-nano robots to enter liver and kidney tumors, cerebral aneurysms, peripheral tissues and organs, embolizing and removing thrombi from micro-blood supply arteries, entering and accurately manipulating the central nervous system through subarachnoid space, realizing pain control in the treatment of advanced cancer, and monitoring physiological signs in vivo using implantable multi-sensor systems.

　　In addition, micro-nano robots can also play an important role in environmental engineering fields such as river and sea sewage purification, air pollution prevention and control, biodegradation and catalysis. Driven by the external field, these micro-agents can organize themselves to move in groups, so as to accurately control the local flow field micro-disturbance, make a directional response to specific environmental conditions, and selectively identify pollutants by carrying, transporting and releasing biological enzymes or catalysts, so as to speed up the reaction process and greatly improve the efficiency of capturing, removing, degrading or repairing pollutants such as organic molecules, toxins/nuclides, marine oil pollution, pathogenic microorganisms, microplastics, heavy metals and radioactivity.

　　Because of its small size, micro-nano robots have high spatial freedom and super-redundant dexterity, and can dive into the limited space that traditional robots can’t reach to complete fine operations. They have unique advantages in high-end equipment manufacturing fields such as complex three-dimensional metamaterial processing, microelectronic circuit assembly and packaging, and detection and maintenance in micro-cavities. It is particularly noteworthy that whether human beings can build an intracellular "protein synthesis factory" on a micro scale depends on how to construct a highly recognizable DNA code for the controllable assembly of amino acids to accurately guide the orderly synthesis of protein. Previous studies have shown that nano-magnetic editing technology can embed multi-modal variant information into micro-machines with nanometer precision, and its more important value lies in that base pairing similar to DNA double helix can be constructed by using nano-magnetic coding. Therefore, organizing the division of labor for micro-nano robots can efficiently and orderly assemble all kinds of functional micro-units, and it is expected that this technology will be used to truly realize the "micro-machine factory" from "machine manufacturing machine" in the micro-scale.

　　Of course, the stage of micro-nano robot is far from this, and it has unlimited potential for various practical applications. We can’t find ideal answers to many questions now, but each question is so fascinating: can DNA molecular computers surpass quantum computers? What is the minimum size of a micro air vehicle, micron or even nanometer? What is the physical limit of artificial intelligence? Is the smallest agent unit a single molecule of hydrogen and oxygen? Nano-doctor and long-term in vivo implantation, nano-brain-computer interface and precise manipulation of single nerve, and how to realize cross-scale interaction … … The resulting revolutionary subversion technology will be the potential development direction of micro-nano robots in the future.

　　Micro-nano robots have not only existed in science fiction movies, but scientists from all over the world are actively pushing them from basic research to real practical application scenarios. People are full of reverie and expectation that it will benefit mankind and transform the world one day. Nevertheless, we need to be soberly aware that the field of micro/nano robots has just started, and the extensive interdisciplinary will bring more thorny problems of integration and innovation. It is also necessary to actively guide scientists in the forefront of different disciplines to tackle key problems in depth and rapidly promote the high-quality development of micro/nano robots at the national level. In order to develop advanced micro-nano manufacturing and robotics for the next generation of intelligent micro-machines, we should be guided by the major national demand, incite the intellectualization and miniaturization of machines, equipment and systems, focus on exploring the basic theory and key technologies for the intelligent realization of micro-machines, promote the rapid development of micro-nano robots, seize the commanding heights of science and technology, and safeguard the core interests of the country.

　　Guangming Daily (16th edition, November 16th, 2023)

Reading： Top Hardware atrix Mania! In 2012, 6 games were rated as top hardware atrix Crazy! Cross-review of six games in 2012

　　【PConline horizontal evaluation】 In a blink of an eye, another year is coming to an end. In the past 2012, the model representing the strongest performance earned enough attention. Game book is a product between ultra-mobile portable and ultra-high performance PC. Although many people still think it is the best choice to play games, this does not hinder the prosperity of game book. Because the current game is powerful enough to control most of the "eat hardware" games.

PConline horizontal evaluation

I. New Features and Development Trends

　　In the past year, there have been several things on the mobile PC platform that have profoundly affected the product trend:

　　First, Intel has officially entered the 22nm era, and the new IVY bridge architecture has achieved certain improvement in performance. Although only about 10% is not enough to change the world, the more important point is that it will definitely reduce power consumption. Once the game-based processors were all around 55W, and now they are all low-power processors with 45W, even 35W and 17W.

intel

　　Although the low-power processor is rarely used in game books, its appearance has triggered a series of notebook changes. In the past, heavy game books could be made thinner, and the games with huge heat in the past could be cooler, and the top-level configurations that were not used in the past could also be used. From this, the future of the game book will be faster and thinner.

　 intel

　　Secondly, NVIDIA has also released a new generation of GPU architecture code-named Kepler in the 28nm process. The brand-new architecture and process have the same profound influence on the hardware trend of the game book. With the improvement of technology and architecture, the performance of graphics card has been improved by almost 50%, and the power consumption of graphics card is still decreasing. Such a rise and fall has made the GTX560M, which was still in the middle and high end last year, stand out and now it has been overtaken by the mid-range GT650M M. Therefore, this year’s game book started from GT650M (PS: Kepler’s lowest model GT640M le, and the numbers below this are all "vests" of the old structure)

Game book in 2012

　　　This year, there has also been a "austral islands" in 28nm process, but AMD seems to have encountered great difficulties in ultra-mobile graphics cards. It seems that the conflict between AMD’s desired APU platform and intel has intensified, so that the combination of AMD’s unique display and Intel processor has almost completely disappeared. Although there is no specific news, according to the two combined parts of the notebook in the past year, it can be guessed that there is more cooperation between intel and NVIDIA, and there seems to be some exclusive agreement. Some people speculate that AMD may refuse to combine with intel. In any case, the number of unique notebooks equipped with AMD is indeed decreasing, so that the 7000 series graphics cards rarely appear in the game books of mainstream brands. The high-end HD7970M is rare, and the entry-level HD7450M entry-level products are gradually disappearing. This year, AMD is doing its own APU Triy and preparing to develop its own ARM architecture products. As for the graphics card, it is somewhat weak in promotion.

Game book in 2012

　　Third, the gradual maturity of the game has broken through the biggest bottleneck of the game book. If you remember the mainstream configuration last year, you will definitely be familiar with Raid 0 disk array composed of dual mechanical hard disks. It seems that the hard disk can only improve its reading and writing. However, this year, we have seen more and more in the top game books. Although the capacity is not large enough and the price is not attractive enough, the combination of SSD and high-capacity mechanical hard disk can bring "flying speed". The improvement of using experience brought by an SSD is far stronger than replacing the i5 core with i7 core.

2012

Game book in 2012

　　As for the memory of cabbage price and the battery that has been difficult to make progress for many years, don’t talk about it. Another thing to mention is the screen, although we have been expecting notebook manufacturers to upgrade or upgrade the material of the screen. However, you may have to continue to be disappointed in 2012. 1366×768 is still the mainstream, and 1080P screens will be more in the game book, but the coverage is not high enough. In addition, there are not enough IPS screens with wide angle and better color reproduction. This year, many monitor manufacturers have made IPS with large screen within 1000 yuan, so there should be no technical and cost problems with notebook monitors. We can only expect IPS high-resolution screen to become a new selling point in notebooks in the coming year.

Second, the introduction of selected models

　　This year, the shipments of the entire PC industry are declining, so there are still some old faces on the list of game-based candidates. Although these old faces still look domineering, they are still somewhat aesthetically tired after watching them for several years. There are also new faces this year, and the appearance can really make people shine. For example, Sony’s is a big-screen game book with a soft Japanese style.

PConline horizontal evaluation

　　Selected models include (in no particular order): G75V, Sony E17, M18x, Shenzhou, and Haier 7G Extreme Edition.

● ASUS G75V:

Asus G75V
ASUS G75YI361VW-BL　　picture　　series　　evaluating　　forum　　quote　　Net purchase price　　

　　Asus player country G75V notebook still continues the design of G series bevel cutting, and the body is neat and stylish. Its angular appearance and strong lines are inspired by F-117 fighters and Lamborghini Countach. It is not only a laptop, but also an amazing work of art, and it is also a product interpretation of fashionable life, representing the unruly taste of gamers.

Asus G75V hardware configuration processor Intel Core i7-3610QM is clocked at 2.30GHz. memory 8GB DDR3 1600MHz display card NVIDIA Geforce GTX 670M (3GB) indicator 17.3-inch LED display 1920×1080 resolution 3D function hard disc 750GB 7200rpm battery 74Wh lithium ionbattery weight The whole machine weighs 4.318kg Travel weight 5.363kg Pre-installed system Windows7 Home Premium 64-bit Reference selling price 18999 yuan

● Sony VAIO E17:

Sony E17
Sony SVE17129CCW (white)　　picture　　series　　evaluating　　forum　　quote　　Net purchase price　　

　　Sony SVE17 has no dead ends, and the front and back ends of the fuselage are arc transitions, and the folding fuselage is like a gift wrapped, which shows a soft beauty, which not only attracts female consumers, but also is very fashionable and beautiful for male consumers.

processor Intel Core i7-3632QM is clocked at 2.20GHz. memory 8GB DDR3 display card AMD Radeon HD 7650M indicator 17.3 inch LED screen　1920×1080 resolution hard disc 1TB HDD battery 44Wh 6-cell lithium ion battery weight The weight of the whole machine is 2.980Kg, and the travel weight is 3.316Kg. Pre-installed system Windows 8 Reference selling price 9999 yuan

● Dell Alienware M18x：

Dell Alien M18x
Dell alienware m18x (alw8d-2848b)　　picture　　series　　evaluating　　forum　　quote　　Net purchase price　　

　　Alienware M18x offers two color choices: nebula red and invisible black, which is enough to show users’ personal style. The price of these two colors is the same, so you can choose them at will. The one we got is the nebula red color. The bright red appearance is matched with the black interior, and the two colors of arrogance and introversion are combined without conflict. Anodized aluminum oxide as the shell material of notebook can make it have strong corrosion resistance and thermal conductivity. On top of this shell, there is a spray paint as fine as a matte, so it feels a little less original color and feel of metal, but it feels more warm and comfortable.

DellAlienware M18x R4

processor

intel Core i7-3740QM　

basic frequency 2.7GHz/3.7GHz (Turbo) cache 6MB LLC (L3 cache) memory

16GB DDR3 1600MHz

display card

NVIDIA GeForce GT 675M×2 （2GB GDDR5）SLi

screen 18.3 inch LED 1920×1080 resolution hard disc 1TBx2 Riad0　(5400rpm) battery 96Wh weight 5.82Kg/7.35Kg system

Windows7 Home Premium (64-bit)

price indication

30999 yuan

● Shenzhou K590s：

Shenzhou K590S
Shenzhou Jingdun K590S-i7 D1　　picture　　evaluating　　forum　　quote　　Net purchase price　　

　　The shell of Shenzhou K590S continues the appearance style of Jingdun series, and the corners and colors are exactly the same as those of the previous Jingdun series. Because of the strong high power consumption hardware, its mold is not from a previous product, but borrowed from the appearance style of a quasi-system product. Perhaps in order to reduce the cost, the top cover of Shenzhou K590S did not follow the previous metal shell, but chose composite materials. From this product, we can see that the product technology of Shenzhou is constantly improving, and the lines and excessive parts of the top cover are handled fairly delicately, which is slightly higher than other products of the same series.

processor Intel Core i7-3630QM is clocked at 2.40GHz and turbo frequency is 3.4GHz. memory 8GB DDR3 1600 (dual 4GB) display card NVIDIA GTX660M(2GB GDDR5 memory) indicator 15.6-inch LED screen with 1366×768 resolution hard disc 1TB HDD+60GB SSD battery 77Wh 5200mAh 8-cell lithium ion battery weight The weight of the whole machine is 2.764Kg, and the travel weight is 3.367Kg Pre-installed system Windows7 Home Premium (64-bit)+Send Office Reference selling price 6499 yuan

● Lenovo Y500：

Y500
Lenovo Y500NT-ISE　　picture　　series　　evaluating　　forum　　quote　　Net purchase price　　

　　The dark black aluminum alloy shell has horizontal wire drawing on its surface, which makes it feel very cold. Many people prefer the cold color of this black metal. Its A-side is not flat, showing a front hood line as a whole, and the Y-series has always been very close to the shape of the car, implying surging power.

processor Intel Core i7-3630QM is clocked at 2.40GHz and turbo frequency is 3.4GHz. memory 8GB DDR3 display card NVIDIA GT650M indicator 15.6 inch LED screen　1366×768 resolution hard disc 1TB HDD (with 16GB SSD) battery 72Wh 6700mAh 6-cell lithium ion battery weight The weight of the whole machine is 2.478Kg, and the travel weight is 2.990Kg characteristic UltraBay technology supporting hot plug hardware Pre-installed system Linux (official win8 driver support) Reference selling price 8999 yuan

● Haier 7G Extreme Edition:

Haier
Haier Jane Eyre 7G- Extreme Edition　　picture　　series　　evaluating　　forum　　quote　　

　　The shape of this Haier 7G Extreme Edition game book is very simple, the color of the whole machine is all black, and the A side of the top cover is all made of ABS engineering plastics. It doesn’t have a luminous product LOGO in the middle of the top cover like other similar game books, but from another angle, will it become cool instead? On the contrary, the design of another 7G Extreme Edition game book of Haier is similar to that of the same type.

Hardware Configuration of Haier 7G Extreme Edition processor Intel Core i7-3610QM is clocked at 2.30GHz. memory 8GB DDR3 1600MHz display card NVIDIA Geforce GTX 670M indicator 15.6-inch LED display 1920×1080 resolution hard disc 500GB HDD battery 87Wh lithium ionbattery weight The whole machine weighs 3.628kg Travel weight 4.649kg Pre-installed system Windows7 Reference selling price unknown

Third, the screen, expansion ability and personalized features

1. Screen

Horizontal Evaluation of Gaming Notebooks in 2012 (Screen) typenumber

screen size

resolution ratio

Screen material

PPI Asus G75V

17.3

1920×1080

IPS

127.3 Sony SVE17

17.3

1920×1080

127.3 Dell M18x

18.4

1920×1080

119.7 Shenzhou K590s

　15.6

1366×768

100.5 lenovo ideapad y500

15.6

1366×768 (optional high-resolution screen) TN 100.5 Haier 7G supreme

15.6

1920×1080 TN　 141.2

　　In fact, there is not much to say about the screen. Most of the models participating in the election are TN screens, and the biggest difference among TN screen models is the resolution. Ben’s screen is supposed to be as high as possible, and it is best to reach that 2880×1800. But this is all our wishful thinking. Not to mention the Microsoft system’s lack of support for high resolution, the load on the graphics card caused by too high resolution is also multiplied.

2, expand the ability

g75
Asus G75V

Horizontal Evaluation of Game Notebooks in 2012 Interface comparison RJ45 VGA USB2.0 USB3.0 e-SATA HDMI DP Multi-audio hole DVD

Asus G75V

■ ■ 0 four □ ■ ■ four ■

Sony SVE17

■ ■ three one □ ■ ■ 2 ■ Dell M18x ■ ■ one four ■ ■ ■ four ■

Shenzhou K590s

■ ■ one three ■ ■ □ three ■ lenovo ideapad y500 ■ ■ one 2 □ ■ □ 2 ■

Haier 7G supreme

■ ■ 2 three ■ ■ □ four ■ remarks ■ stands for yes, □ stands for no.

　　Because of its small size, its interfaces are far less. Generally, notebooks are a combination of 3×USB+HDMI+VGA, plus a set of audio holes. However, in a game with a huge fuselage, there is no shortage of interfaces. Dell M18x has the richest interfaces, after all, the body is also the largest.

● Featured functions：

● Shortcut keys specially designed for gamers

Haier

　　There are plenty of shortcut keys above the keyboard area of Haier’s 7G Extreme Edition game book, from left to right: 1.Cinema Pro cinema mode: dynamically adjust and optimize video playback. Provide high-definition quality and better experience for multimedia playback. 2.TDE accelerated overclocking function key: the conversion speed of creating, editing and sharing videos is faster. 3.Cooler Boost turbofan gear adjustment: it can instantly reduce the notebook core temperature by 8-10℃. 4.Win-Key Disable Win shortcut switch: You can lock the Win key to avoid accidentally quitting the game. 5. Wireless network is the key. 6. Bluetooth is the key. 7.ECO Engine special mode switch key: six power modes can be selected: projection mode, movie mode, office mode, Turbo battery mode, ECO off mode and game mode. Protect the battery, so that the service life of the battery is prolonged and the service life is prolonged. 8.Dynamic LED Dynamic LED control keys are more personalized and dazzling.

　　Almost every game except Dell has a variety of deceleration and adjustment keys, which also shows the in-depth research of large-scale game books for gamers, and strives to provide a better experience in terms of additional assistance.

● Backlit keyboard:

Sony E17
Sony SVE17

Y500
lenovo ideapad y500

Dell Alien M17x
Dell M18x

　　These six products have backlit keyboards except Shenzhou K590s, and the most dazzling one is Dell Alien M18x, its AlienFX™ The lighting system can provide many themes and as many as 512 trillion unique lighting combinations, which no machine can surpass at present.

●3D display technology:

g75
NVIDIA 3D Vision 3D Display Solution

　　ASUS G75V adopts NVIDIA 3D Vision active 3D display technology. Unlike the common notebook products that use this scheme, ASUS G75V integrates the NVIDIA 3D stereoscopic illusion system into the fuselage. Previously, the 3D notebook computer needed to connect the 3D stereoscopic illusion system with an extra USB cable, while ASUS G74S saved the trouble of wiring and saved a USB interface for other devices. The convenience brought by this integrated solution is obvious.

Asus G74S
Shutter 3D

　　The principle of shutter 3D is not complicated. When shooting, the pictures of the left and right eyes are recorded respectively. When playing, the shutter glasses are worn to control the opening and closing of the glasses, so that the human body can perceive the images of the left and right eyes respectively, thus synthesizing 3D vision in the brain. In the technical realization of shutter 3D, the refresh rate of LCD panel should reach 120Hz or higher. It is worth mentioning that because the liquid crystal lens in the glasses is opened and closed to control the intake of the left and right eye pictures, the working frequency is 60Hz, and it is generally transmitted by infrared rays, which is easily disturbed by the frequency of fluorescent lamps and stroboscopic.

●UltraBay expansion fittings

　　The most special feature of Lenovo Y500 is the function of UltraBay to expand accessories. Through UltraBay, not only the optical drive, hard disk and weight reduction module can be expanded, but also an extra independent graphics card and fan can be connected to meet the different needs of users. Lenovo Y500′ s UltraBay is located in the CD-ROM drive, which is a relatively mature and low-risk practice at present. It adopts a tool-free disassembly design. If you want to expand accessories, you need to remove the battery first, then open the locking device hidden in the battery internal test, slide down the switch in the center of the D shell and pull out the CD-ROM drive hardware at the same time. Because it may be necessary to expand the graphics card, the operation steps of replacing UltraBay are somewhat complicated, but in the face of uncertain factors affecting the stability of the system, this design is more reliable.

lenovo y400

What is it?UltraBay？

　　UltraBay expansion slot not only has the feature of "hot plugging" (Lenovo Y400 does not support hot plugging because of the risk of expanding graphics cards), but also is one of the important ways for computers to expand peripherals. As far as UltraBay 2000 is concerned, it supports dozens of peripherals including CD-ROM drive, hard disk box, digital loader, battery and even weight loss module, which expands the application level of notebook computers.

　　Summary:The characteristics of the game book are rich expansion, powerful playability and extremely personalized functions, which is why the game book will adopt very flamboyant colors and dare to break through the traditional concepts of color, shape and function. Compared with last year’s game book, the game book in 2012 is more exquisite, and functions such as 3D function and UltraBay will be selected by more and more manufacturers in the future, and the game book will still assume the glorious role of trying out new features first.

Fourth, CPU and GPU running test comparison

● Processor+chipset

2012 Horizontal Evaluation of Gamebooks (CPU Processor) typenumber

Processor model

TDP

Cache

Main frequency and turbo frequency Core thread chip set Asus G75V

Intel Core i7-3610QM

45W

6MB　

2.3Ghz/3.3GHz

4 cores and 8 threads HM77 Sony SVE17

　Intel Core i7-3632QM

　35W

　6MB

2.2Ghz/3.2GHz

4 cores and 8 threads　 HM76 Dell M18x

　Intel Core i7-3720QM

45W

6MB

2.6Ghz/3.6GHz　

4 cores and 8 threads HM77 Shenzhou K590s

　Intel Core i7-3630QM

45W

6MB　

2.4Ghz/3.4GHz　

4 cores and 8 threads HM76 lenovo ideapad y500

Intel Core i7-3720QM　

45W　

6MB　

　2.6Ghz/3.6GHz 4 cores and 8 threads HM76 Haier 7G supreme

Intel Core i7-3610QM

　45W

6MB　

2.3Ghz/3.3GHz　

4 cores and 8 threads HM77

　　The six products sent for testing all use the third-generation processors, although the models are not the same, they all belong to the top high-end products, and there is not much difference in use. The latest intel HM76/77 is selected in chipset selection. The difference between 76 and 77 is the number of USB supported (there is no such problem in the world), disk array and SRT acceleration technology.

Q is quad (meaning "quadruple, quadruple"), representing quad-core and quad-core CPU；; M stands for mobility and is a mobile processor, that is, a processor for notebook computers. Core series are,,. I3 is the lowest, i7 is the highest.
Take the numbers 3610 as an example:
3. It is the third generation of Core I series, namely ivy bridge architecture processor.
6, representing the status of this CPU in the third generation, for example, it is also i7, i7 3720QM is higher than i7 3610QM, and there will be some differences in main frequency and commercial functions.
1, which means that in terms of specific performance, the main frequency will be improved with digital rising, the performance of i7 3630QM will be better than that of i7 3610QM, and the frequency of i7 3630QM will be 0.2GHz higher than that of i7 3610QM.
0, representing other characteristics of CPU, such as the power consumption of i7-3632QM is lower than that of i7-3630QM, and the integrated display frequency of i7-3615QM is higher than that of i7-3610QM.

2012 Horizontal Evaluation of Gamebooks (CPU Processor) typenumber

Processor model

cinebench R10

cinebench

R11

1X nx n cpu　　 Asus G75V

Intel Core i7-3610QM

5661

21732

6.26

Sony SVE17

　Intel Core i7-3632QM

　5456

　20303

5.86

Dell M18x

　Intel Core i7-3720QM

6185

23621

6.79

Shenzhou K590s

　Intel Core i7-3630QM

4279

16202

6.21　

lenovo ideapad y500

Intel Core i7-3720QM　

5823

22243

6.45 Haier 7G supreme

Intel Core i7-3610QM

　5690

21444

6.29　

cinebench

r10

　　Cinebench R10 is a common processor performance calculation software. Its test is divided into two parts. The first time, it will run a single core and single thread, and the second time, it will run all the cores and threads to render a high-definition picture. According to the test results, the intel -3615QM multi-core test score of 700z is 21373, which stands out among all machines. However, this machine itself is relatively large, and it is still somewhat reluctant to be counted as a thin book. It is indeed suspected of "bullying" in a pile of small books. Therefore, it is more appropriate for everyone to pay attention to the processors of other products, and the Intel -3360M with all small-size and light-weight computers is the most eye-catching. Even the high-end i7-3517u is still more than 1000 points lower.

●GPU graphics scores：

nvidia

　　This year, NVIDIA is still strong, and five of the six machines are equipped with NVIDIA graphics cards. However, it has been very easy to "rename and upgrade" the vest for many years. Now it is necessary to find the real "Kepler" among the 600 series graphics cards.

gpu

Horizontal Evaluation of Gamebooks in 2012 (GPU Graphics Card) typenumber

Processor model

processing procedure

Stream processor

Rops

Core frequency/memory frequency Memory bit wide Asus G75V

NVIDIA GeForce GTX 670M

40nm

336

620MHz/750Mhz

3GB GDDR5 192bit Sony SVE17

　AMD Radeon HD 7650M

40nm

　480

500MHz/900MHz

2GB GDDR3 128bit Dell M18x

NVIDIA GeForce GTX 675M SLI

　40nm

384

620MHz/750Mhz　

2GB GDDR5 256bit Shenzhou K590s

　NVIDIA GeForce GTX 660M

28nm　

384

835MHz/1250Mhz

2GB GDDR5 128bit lenovo ideapad y500

NVIDIA GeForce GT 650M

28nm　 384

　790MHz/1000Mhz　 2GB GDDR5 128bit Haier 7G supreme

NVIDIA GeForce GTX 670M

40nm 336　

0620MHz/750Mhz

1.5GB GDDR5 192bit

● Test software：

　　Based on DX9 test environment, 3Dmark 06 is the most common 3D graphics test software on mobile platform. The test score of 3Dmark06 is the common score of processor, memory and graphics card. To some extent, its score can reflect the 3D performance level of the whole machine, but it cannot accurately display the ability of graphics card. The reason why 3Dmark 06 has not been completely eliminated is that there are still fusion/core graphics cards that can’t run a higher version of the test program well, especially there are many products with low 3D performance on the platform. In order to achieve cross-platform comparison and vertical comparison with the products of the past few years, they have always insisted on using them.

y500
Lenovo Y500 test results

　　In addition, we also choose 3DMark Vantage, which is based on Microsoft DX10 API and can give full play to the advantages of multi-channel graphics cards and multi-core processors. The resolutions are all set to 1366×768 (the highest resolution of some models).　

　　From the comparative results, the GTX675M SLI of Dell M18x still dominates, while the AMD HD7650M equipped with Sony SVE17 is not very satisfactory, and it does not perform well in both tests. This may also be the reason why most notebook products have abandoned AMD’s unique display this year. After all, 7650 is also positioned as a mid-range product, but its performance is only about the level of GT630M.

Five, the whole machine performance test comparison

PCmark7/Vantage

　　PCMark Vantage can measure the comprehensive performance of various types of PCs. From multimedia home entertainment system to professional to high-end platform, whether in the hands of professionals or ordinary users, you can get a thorough understanding in PCMark Vantage, so as to maximize performance. The test content can be divided into the following three parts:

1. Processor testing: based on data encryption, decryption, compression, decompression, graphics processing, audio and video transcoding, text editing, webpage rendering, mail function, processor artificial intelligence game testing, contact creation and search.

2. Graphics test: based on high-definition video playback, graphics processing of graphics cards and game test.

3. Hard disk testing: using Windows Defender, Alan Wake game, image import, Windows Vista startup, video editing, media center use, Windows Media Player search and classification, and starting the following programs: Office Word 2007, Adobe Phothop CS2, Internet Explorer, Outlook 2007.

y500

Comparison of running test of whole machine performance

　　As a well-known comprehensive hardware testing tool software, PCMark 7 can quickly and comprehensively test the performance of the whole machine. Like the old version of the software, PCMark 7 is also a test suite for comprehensive performance analysis of the latest PC system. PCMark 7 consists of seven different test sessions, including a total of 25 independent workloads, covering all aspects of daily PC applications such as storage, calculation, image and video processing, web browsing and games.

　 F640MX

Comparison of running test of whole machine performance

●SYSmark2007

　　SYSMark series software obtains the performance data of the computer by using real and appropriate application software and simulating the operation of real users on the computer. BAPCo hardware effectiveness evaluation tools represented by SYSMark series have been widely recognized by IT professional managers, editors, journalists, PC OEM manufacturers, analysts and other professionals all over the world.

y500

　　SYSMark2007 Preview hardware performance evaluation tool includes four test scenarios: E-Learning, Office Productivity, Video Creation and 3D Modeling.

Comparison of running test of whole machine performance

Six,Measured comparison

On the Significance of Game Frame Number (FPS)

　　The number of frames is the amount of pictures transmitted in one second, and it can also be understood that the graphics processor can refresh several times per second. When the object moves away, the impression of the optic nerve on the object will not disappear immediately, but will last for about 1/24 second. This property of the human eye is called "visual persistence of the eye". Theoretically speaking, no matter how high your game frame rate is, 60 or 120 frames, we can only distinguish about 24 of them in the end. However, if the actual game screen is only 24 frames, the visual experience will not be very smooth.

　　The number of game frames is the standard to reflect whether the game runs smoothly. In most cases, it can be classified as follows: 1. Slide level: below 20 frames; 2, the playability is very low: the number of frames is 20-30; 3, acceptable: 30-50 frames; 4. Smooth operation: the number of frames is 50-60; 5. Perfect operation: the number of frames is greater than or equal to 60. That is to say, under normal circumstances, the number of frames is greater than 60, which is of little significance. At this time, you can increase the quality of the game to get better visual effects.

lost planet 2

Y400

　　　The game stage of "Lost Planet 2" is EDN-3rd, which has undergone a warming change more than ten years after the previous story happened. There will be new scenes such as jungle, and the protagonist is not one person like the previous story, but the story is unfolded from different perspectives of "Snow Thieves". Like the previous work, Lost Planet 2 is developed with the latest version of the original engine MT Framework of CAPCOM, and the performance of the game world will be more detailed and beautiful. It’s not just the evolution on the screen. This game will add a lot of new elements on the basis of the requirements of the previous players. Needless to say, new scenes, new characters, new weapons, etc., and the actions of the characters are more colorful than the previous game.

●《》

　 Battlefield 3
First person shooter game　

　　Battlefield 3 (English name: Battlefield 3, also known as BF3, Taiwan Province translation: Battlefield storm riders) is a first-person shooter game developed and produced by EA (American Electronic Arts). The game was officially released on October 25th, 2011 on Microft Windows, PS3, Xbox 360 and other platforms, and will be logged on Android and WII platforms in the future. Battlefield 3 is the orthodox sequel to Battlefield 2 and the eleventh work of EA Battlefield series.

●《NBA 2K13》

y500

　　The game NBA 2K13 adopts an improved physical engine, and the mechanical simulation of passing and shooting has also been improved. The game cooperates with the American Basketball Association to include the star-studded 2012 American men’s national basketball team and the 1992 "Dream Team". In the test environment, the maximum resolution is 1366×768, all light and shadow special effects and background audience rendering are fully open, and 8 times anti-aliasing is fully open.

f640mx

●《》

k590s

　　"Need for Speed 17: Most Wanted" is a reset classic work of the 9th generation, created by Criterion Games, the production group of "Hot Storm", and will reshape the classic glory with high quality and high freedom. In terms of engine, this work adopts the enhanced version of "Chameleon" engine of Need for Speed 14, which brings better light and shadow effects. The test environment is the default advanced special effects.

k590s

Comparison of game test scores

　　Through the above four classic games, we have a more detailed test result for six game notebooks. From the bar chart above, Dell M18x ranks first, and all the data are far ahead of other products, thanks to the configuration combination of dual GTX 675M graphics cards, while Sony E17 adopts AMD Radeon HD 7650M discrete graphics card, which is not enough to compete with other products, so it is slightly inferior in game performance.

Seven,, endurance comparison

pconline

　　It should be noted that if the surface temperature of a machine is below 35℃, the operation feels very comfortable, and the range between 35℃ and 38℃ is acceptable. After all, such a temperature is similar to the human body temperature. If the surface temperature exceeds 38℃, then the human body will feel uncomfortable when it comes into contact with the machine.

Asus G74S

　　Strong performance and heat dissipation are often difficult to have both. The more powerful the performance, the more amazing its calorific value is, so it requires a lot of effort in the design of internal air ducts. So what is their heat dissipation effect?

sanre
Schematic diagram

　　We use Furmark copying software to test all products. Furmark will fully operate the CPU and graphics card, the two major heating parts of the whole machine. After 30 minutes of operation, the temperature will reach a limit height. In order to let everyone see the heat dissipation of each machine more intuitively, we also use FLUKE infrared thermal imager to observe the temperature rise at each position. (Temperature range is 20 C-50 C: below the lower temperature limit, black will be displayed; Exceeding the upper temperature limit will display white). (The following pictures can be clicked to view the original picture.)

Horizontal Evaluation of Gamebooks in 2012

Asus G75V

Shenzhou K590s Dell Alienware M18x

Dell Alienware M18x Sony VAIO E17

Sony VAIO E17 lenovo ideapad y500

lenovo ideapad y500 Haier 7G extreme edition

Haier 7G extreme edition

　　Through FLUKE infrared thermal imager, we can observe the temperature rise of each position separately. Judging from the heat dissipation result chart above, the heat dissipation of Haier’s 7G Extreme Edition game book is the best. Although the local temperature above the keyboard area reaches about 45 degrees Celsius, the temperature of his keyboard area is only about 25 degrees Celsius, which has no effect on players at all. Relatively speaking, the temperature control of ASUS G75V game book is also very good. In the case of extreme copying machine, the maximum temperature of keyboard area is controlled at about 35 degrees Celsius, and users will not feel obvious burning sensation when using it, which is very rare for the game itself.

　　The remaining four products have more or less high-temperature areas in terms of heat dissipation, which are exposed in the case of extreme copying machine. If it is unlikely that this problem will occur in the heat dissipation of general notebooks, it should be a common problem for the game itself, so how to control the temperature of the whole machine of the game book is still a very necessary topic.

●MobileMark 2007

　　Endurance is also an important test parameter. Next, we will compare and analyze the endurance of these six game books.

　　In order to ensure the uniformity of the test, we installed Windows 7 64-bit flagship operating system on all the 12 participating machines, installed the necessary chipset, graphics card, network card and wireless network card driver, used a unified test script, and used the software Mobilemark 2007 as the test standard, thus avoiding unnecessary interference from external factors.

　　Mobilemark 2007 integrates many commonly used softwares, such as Adobe Reader, Adobe Photoshop CS2, Microsoft office and so on. It tests the endurance of the whole machine by simulating the real use environment of users, so the results obtained are of great reference value.

Unified environment
Unified test environment

MobileMark 2007

　　For the purchase of notebooks, battery life is indeed an important factor that cannot be ignored, but according to Xiaobian’s observation, few gamers will care about the battery life of gaming notebooks, but it would be a wonderful thing if they can take into account the ultra-high gameplay while ensuring a good battery life level. Through the test, we can see the final result given by MobileMark 2007. Shenzhou K590s won the first place with a battery life of 280 minutes, which is quite amazing for the game notebook. Secondly, Haier 7G Supreme and Lenovo Y500 also scored 243 minutes and 250 minutes respectively, which is a relatively good result.

Comparison of endurance test results

　　However, Dell M18x, Sony E17 and ASUS G75V did not perform so well, and their battery life was only about 2 hours. The domineering appearance and powerful configuration of Dell M18x made it only have a battery life of 112 minutes, but its ability was beyond doubt.

VIII. PConline Summary and Prospect

　　In 2012, the game book was still on the road of piling up hardware, and it still reached a considerable height in terms of running points alone. Taking the graphics card as an example, today’s GTX660M scores about 12,000 in 3Dmark Vantgae. Compared with the GTX660 score of 15,000 on the desktop, its 3D performance gap is not too exaggerated. The overall performance is about 80% of the desktop graphics card. At the moment when the performance of the whole machine is excessive, instead of paying attention to the improvement of performance, it is better to consider how to solve the heat dissipation and battery life, which is the new feature of this year’s game notebook — — low power consumption

Summary and prospect

　　Both the latest three generations of Core processors and the new generation of graphics cards have begun to pursue the goal of low power consumption. The new generation of low-power graphics cards with 28nm and the new generation of processors with 22nm are all emphasizing more advanced processes and lower heat generation.

Summary and prospect

　　This is why Y470, which was complained by many netizens, gradually solved the problem of fever after upgrading. We also expect to see the game book made thinner and less calorific value in the future, of course, all this is based on the undiminished performance.

Outlook for 2013:

　　Next year, intel will release a new generation of HASWELL platform. According to the "pendulum law" of intel’s processor upgrade, next year’s products will be upgraded with a new architecture, which means that they will remain in the 22nm process, and then the performance of the processor, especially the performance of the core graphics card, will be improved through the new product architecture. Of course, the core graphics card is of little significance to the game notebook.

　 Summary and prospect

　　As for the graphics card, it is still a little confusing. The competition between NVIDIA and AMD is one-sided. AMD is not without products, but it still doesn’t have much to do on the notebook platform. In 2013, AMD will continue to be its own APU or ARM processor, and may not have much energy to develop mobile platform graphics cards, but we still don’t want AMD to be depressed. No competition is not a good thing for consumers, just as an i5 processor can sell for 1500 yuan now, which is largely due to AMD’s top processor.

Summary and prospect

　　In the next year, SSD solid-state hard disk will usher in a big explosion. One of the biggest shortcomings of PC hardware development so far is disk performance. SSD began to be fully popularized in 2012. Although the initial capacity is only 32GB, 32GB is enough to install Windows system, which is enough to improve the boot speed. For consumers, the feeling of the speed of the whole machine has been greatly improved.

　　In 2013, the combination of SSD and HDD of Ultrabook will be adopted by more and more notebooks. For example, Shenzhou K590s, which closed at the end of this year, has been configured in this way. This year, the price of SSD is still falling, and the capacity is still increasing. In the next year, 64GB or even 128GB products will become the mainstream, and the combination of 128GB and 1TB will also be popularized.

　　Finally, let’s talk about the memory of Chinese cabbage. DDR3 1600 will be fully distributed at the end of this year, and the main frequency will be upgraded across the board or directly to DDR4 next year. However, there is no news about DDR4 this year, and I don’t know if there will be such an upgrade in 2013.

Summary and prospect
It feels better to be thinner.

　　In 2012, the game book has reached a bottleneck. In 2013, hardware performance is not the bottleneck of the game book. Improving the game experience is the future goal. At this point, we can only hope that the gaming notebook in the next year will be more refined, thinner and cooler, and the game will feel more exciting.　

The 2024 Guangzhou Automobile Chuanqi GS8 went on the market, with the same price and 8155 chips as standard.

A few days ago, we learned from the official channel of Guangzhou Automobile Chuanqi that the 2024 Chuanqi GS8 was officially launched, with a price of 186,800 yuan, which was consistent with the 2022 model, but the number of models was streamlined, and two pilot series models and two twin-engine series models were launched. This year’s change, the new car has been mainly adjusted for details, and new optional packages have been provided, and the four-wheel drive system of the fuel version has also been upgraded.

In terms of appearance, the 2024 Chuanqi GS8, like the 2022 model, continues to offer two styles of front faces, which are equipped with air intake grilles officially called "Zhanwei Wing" and "Long Lin Wing". Among them, the pilot series models adopt the "Zhanwei Wing" front grille, and the interior of the grille is filled with chrome-plated elements with metal cutting texture, which are symmetrically arranged in a "V" shape, showing a certain fighting atmosphere.

The front grille of "Long Lin Wing" equipped in the double-engine series is larger, extending to the position of the front bumper, and the interior of the grille is decorated with bright silver diamond elements, which has stronger visual impact. In addition, the double-engine series also incorporates blue elements in the front and rear LOGO to distinguish it from the pilot series.

The side shape is relatively square, which makes the whole vehicle have a strong gas field. The blackened pillars and side privacy glass create the visual effect of the suspended roof. In order to echo the front face, the tail part also adopts a vertical tail light group. The interior of the lamp cavity is divided into two parts which are symmetrical up and down, and form a depth in space, which has a stronger sense of three-dimensional sense and technology. When the taillight is lit, it changes from the outside to the inside, thus improving the eye-catching degree of the tail. At the bottom, it is a transverse black decorative board, and it is equipped with chrome-plated exhaust on both sides to enhance the sense of movement.

In the car, the 2024 Chuanqi GS8 has added a brown interior of Star Dew Guyu, and the light interior of Dawn Star Diamond has been cancelled. HUD heads up to show that the height of the cover is reduced, and the door panels and other places are covered with suede material. The texture of the door trim panel stitching and door frame adhesive tape has also become more delicate, which further enhances the sense of grade of the interior.

Other elements such as 12.3-inch full LCD instrument, 14.6-inch suspended central control panel and crystal electronic barrier will continue to be used to create a strong scientific and technological atmosphere. In addition, the new car is equipped with Qualcomm Snapdragon 8155 chip, which further improves the response speed and operational fluency of the car system.

In terms of configuration, the 2024 Chuanqi GS8 has a new steering wheel heating function; Double-engine series models add BSD blind zone monitoring and Alpine brand audio optional package; Double-engine series 6-seat version adds luxury seat comfort optional package (including main and co-pilot seat massage/four-way lumbar support, co-pilot boss key, second row seat heating, etc.).

In the power section, the 2024 Chuanqi GS8 continues to provide 2.0T fuel and 2.0T hybrid models. Among them, the pilot series is equipped with GAC Chuanqi Julang Power 2.0TGDI engine, with a maximum power of 185 kW (252 HP) and a peak torque of 400 Nm, which matches Aisin’s third-generation 8AT gearbox. The dual-engine series is equipped with a 2.0TM engine+Toyota’s new fourth-generation THS enhanced hybrid system, in which the maximum power of the engine is 140 kW (190 HP) and the peak torque is 320 Nm, matching the E-CVT gearbox.

It is worth mentioning that the four-wheel drive system of the pilot series has been upgraded to the sixth generation torque manager of Borg Warner, which can bear more torque, faster response speed and lighter weight.

As the flagship SUV of Guangzhou Automobile Chuanqi, Chuanqi GS8 has reached the mainstream level of the same level in appearance, interior and configuration, and provides 2.0T Julang power+Aisin third-generation 8AT gearbox and 2.0TM engine+Toyota brand-new fourth-generation hybrid power system, which is also one of the main selling points of this car.

In the price range of about 200,000 yuan, the configuration that the joint venture brand SUV can give you is not particularly rich, and some consumers will consider their own brand models. Therefore, Chuanqi GS8 may be attractive to those consumers who just need 6/7 seats and pay more attention to configuration. (Text/Comfort)

Notice of Guangdong Provincial People’s Government on praising the winners of the first People’s Republic of China (PRC) Vocational Skills Competition and the units and individuals who have made outst

Guangdong Provincial People’s Government on Praising People’s Republic of China (PRC)

The winners of the first vocational skills competition in our province and

Make outstanding contributions to the competition.

Notification of units and individuals

Yue Fu Han [2021] No.11

People’s governments at the local and municipal levels, departments and institutions directly under the provincial government:

　　From December 10 to 13, 2020, the first People’s Republic of China (PRC) Vocational Skills Competition (hereinafter referred to as the First National Skills Competition) was successfully held in Guangzhou, Guangdong Province. This is a comprehensive national vocational skills competition with the highest specifications, the largest number of events, the largest scale and the highest level since the founding of New China. The CPC Central Committee and the State Council attached great importance to this. The Supreme Leader General Secretary sent a congratulatory letter, Premier Li Keqiang gave instructions, and Vice Premier Hu Chunhua attended the opening ceremony of the contest. In this competition, the Guangdong delegation sent 97 athletes to participate in all 86 events, and won 32 gold medals, 13 silver medals, 11 bronze medals and 27 winning prizes, accounting for 37% of the national total. The number of gold medals, medals and total scores of teams ranked first in the country, which fully demonstrated the superb skills and positive spirit of skilled talents in our province, and fully demonstrated the foundation and strength of our province in moving from a manufacturing province to a manufacturing province. At the same time, our province did not bear the great trust, and successfully completed the organization and undertaking of the first national skills competition. The organization of the competition was safe and smooth, and the service guarantee was thoughtful and meticulous, achieving a double harvest in hosting and participating.

　　In order to vigorously carry forward the spirit of model workers, labor spirit and craftsman spirit, and create a social fashion of "glorious labor, lofty knowledge, precious talents and great creation", the winners of the first national skills competition in our province and the units and individuals that have made outstanding contributions to the running of the competition are now commended and rewarded, as follows:

　　First, 36 individuals, including Liu Zelong, the gold medal winner of 32 projects such as electronic technology, were commended, each with a reward of RMB 250,000, and were promoted to the professional qualification or professional skill level of senior technicians. The above-mentioned 32 technical guidance expert groups will be awarded RMB 250,000 each.

　　Second, 15 individuals, including Hong Jiacong, the silver medal winner of 13 projects, such as network security, were commended, each with a reward of RMB 150,000, and the technicians were promoted to professional qualifications or professional skill levels. The technical guidance expert group of the above 13 projects will be awarded RMB 150,000 each.

　　3. Give a notice of commendation to 11 individuals, including Wang Ruyong, the bronze medal winner of 11 projects, such as information network wiring, and reward them with RMB 50,000 yuan, and give them professional qualifications or professional skill levels. The technical guidance expert group of the above 11 projects will be awarded RMB 50,000 each.

　　Four, to the assembly fitter and other 27 project winners Zhai Yongbo and other 32 individuals to give notice of praise, each reward of 10 thousand yuan, and give the promotion technician professional qualification or professional skill level. The technical guidance expert group of the above 27 projects will be awarded RMB 10,000 each.

　　V. Inform and commend 82 coaches such as Lei Zhiliang, 81 technical guidance experts such as Wang Lanbin, and 190 staff members such as Chen Huang who have made outstanding contributions in hosting and participating in the competition.

　　Six, 26 technical support and implementation support units, such as Guangdong Vocational Skills Service Guidance Center, which have made outstanding contributions to the hosting of the Games, and 14 hosting units and relevant departments, such as Guangzhou Municipal People’s Government, gave a notice of commendation.

　　All localities and departments should fully implement the spirit of the 19th National Congress of the Communist Party of China and the 2nd, 3rd, 4th and 5th Plenary Sessions of the 19th National Congress under the guidance of Socialism with Chinese characteristics Thought of the Supreme Leader in the New Era, thoroughly implement the spirit of congratulations from the General Secretary of the Supreme Leader and the spirit of instructions from Premier Li Keqiang, follow the example of praised collectives and individuals, make great efforts to create a glorious social trend of working and a professional atmosphere of striving for perfection, and set off a wave of learning and practicing skills and creating first-class. Further improve the scale and level of vocational skills training, speed up the construction of knowledge-based, skilled and innovative workers, and provide strong skilled personnel support for Guangdong to walk in the forefront of the country and create new glories in the new journey of building a socialist modern country in an all-round way.

　　Attachment: List of commended collectives and individuals

people’s government of guangdong province

January 17, 2021

attachment

List of commended collectives and individuals

　　I. List of Commendations for Entries

　　(1) Gold medal winners (36).

　　1. Electronic technology projects

　　Liu Zelong is a student of Guangdong Technician College.

　　2. Renewable energy projects

　　Chen Zhiyong Guangdong Technician College students.

　　3. Internet of Things Technology Project (Selected by National Games)

　　Liu Siyu Guangdong Technician College students.

　　4. Electronic Technology Projects (Selected National Games)

　　Xie Zhiping, employee of Guangdong Technician College

　　5. Commodity display technology projects

　　Chen Jiarong is a student of Guangdong Light Industry Technician College.

　　6. CNC milling project

　　Zhou Chujie is a student of Guangdong Mechanical Technician College.

　　7. CNC car project

　　Wu Hongyu Guangdong Mechanical Technician College students.

　　8. Industrial machinery projects

　　Lin Jiaxi is a student of Guangdong Mechanical Technician College.

　　9. Plastic mold project

　　Chen Zhenbin is a student of Guangdong Mechanical Technician College.

　　10. Additive manufacturing project

　　Lin Weitong is a student of Guangdong Mechanical Technician College.

　　11. CNC car project (selected by National Games)

　　Wu Weikang Guangdong Mechanical Technician College students.

　　12. CNC Milling Project (Selected by National Games)

　　Fan Biao is a student of Guangdong Mechanical Technician College.

　　13. Interior Decoration Design Project (Selected by National Games)

　　Zhong Qingxian is a student of Guangdong Communications Urban Construction Technician College.

　　14. Electrician project (selected by National Games)

　　Zhong Wujian, employee of Guangdong Lingnan Industrial and Commercial First Technician College

　　15. Prototyping project

　　Xu Silu is a student of Guangzhou Technician College.

　　16. Network system management project

　　Huang Jinqiang is a student of Guangzhou Industry and Trade Technician College.

　　17. Refrigeration and air conditioning projects

　　Ruankang, a student of Guangzhou Industry and Trade Technician College.

　　18. Mobile robot project

　　Xu Jun, a student of Guangzhou Electromechanical Technician College

　　Li Xiaojie Guangzhou Industry and Trade Technician College students.

　　19.CAD mechanical design project

　　Lin Wuquan is a student of Guangzhou Industry and Trade Technician College.

　　20. Mobile application development projects

　　Yang Shuming, employee of Guangzhou Industry and Trade Technician College

　　21. Network System Management Project (Selected National Games)

　　Sun Wong Ying Guangzhou Industry and Trade Technician College staff

　　22. Robot system integration project

　　Wu Longhui is a student of Guangzhou Electromechanical Technician College.

　　Guo Yongsheng is a student of Guangzhou Electromechanical Technician College.

　　23. Intelligent Technology Project of New Energy Vehicles (Selected by National Games)

　　Chen Lihua Guangzhou Electromechanical Technician College Staff and Workers

　　Liu Hao Guangzhou Electromechanical Technician College Staff

　　24. Fashion technology project

　　Xiao Qi is a student of Guangzhou Baiyun Industrial and Commercial Technician College.

　　25. Jewelry Processing Project (Selected by National Games)

　　Lin Yuxin is a student of Guangzhou Nanhua Industry and Trade Senior Technical School.

　　26. Concrete construction projects

　　Xie Jianqiang is a student of Guangzhou Urban Construction Technical School.

　　Lin Yifeng guangzhou city construction college staff

　　27. Photoelectric technology project

　　Chen Jun ‘an, employee of Shenzhen Institute of Information Technology

　　28. Cloud computing projects

　　Chen Xinyuan shenzhen institute of technology staff

　　29. Graphic design technology project

　　Huang Yuting shenzhen institute of technology staff

　　30.3D digital game art project

　　Luokai shenzhen institute of technology student

　　31. Industrial design technology projects

　　Zhuo Jiapeng shenzhen institute of technology student

　　32. Jewelry processing project

　　Liang Ronghao, a student of Shunde Vocational and Technical College (Zheng Jingyao School)

　　(2) Silver medal winners (15).

　　1. Network security project

　　Hongjiacong Guangdong Technician College staff

　　Li Xiongji is a student of Guangdong Technician College.　

　　2. Information network wiring project

　　Cui Yanxia, employee of Guangdong Institute of Light Industry Technicians

　　3. Building information modeling project

　　Lan Yuhang is a student of Guangdong Communications Urban Construction Technician College.

　　4. Automobile maintenance (selected by China National Games)

　　Li Xilong Guangdong Provincial Communications Urban Construction Technician College Staff and Workers

　　5.CAD mechanical design project (selected by National Games)

　　Zheng Xusheng, employee of Guangzhou Industry and Trade Technician College

　　6. Aircraft maintenance project

　　Zheng Jinglin is a student of Guangzhou Traffic Technician College.

　　7. Heavy vehicle maintenance project

　　Liao Mingwang, employee of Guangzhou Traffic Technician College

　　8. Horticultural projects

　　Yang Huaxiong is a student of Guangzhou Public Utilities Technician College.

　　Zhou Dong, a student of Guangzhou Public Utilities Technician College

　　9. Social Sports Guidance (Fitness) Project (Selected National Games)

　　Liu Jun Employees of Guangzhou Dongyijian Fitness Co., Ltd.

　　10. Masonry Project (Selected by National Games)

　　Liang Jintao, employee of Guangzhou Construction Engineering Vocational School

　　11. Hotel reception projects

　　Zheng Xiaowen shenzhen polytechnic students.

　　12. Printing media technology project

　　Liu Jinrui shenzhen institute of technology staff

　　13. Baking project

　　Huang Xingyan is a student of Dongguan Technician College.

　　(3) Bronze medal winners (11).

　　1. Information Network Wiring Project (Selected by National Games)

　　Wang Ruyong, employee of Guangdong Institute of Light Industry Technicians

　　2. Automotive technology projects

　　Wu Lihong is a student of Guangdong Communications Urban Construction Technician College.

　　3. Woodworking project

　　Chen Saiyu, employee of Guangzhou Institute of Light Industry Technicians

　　4. Health care (selected by National Games)

　　Employees of Guangzhou Institute of Light Industry Technicians in Xie Siming

　　5. Industrial control projects

　　Xiaochuang is a student of Guangzhou Electromechanical Technician College.

　　6. Restaurant service (selected by National Games)

　　Li Ziliang, a student from guangzhou institute of technology

　　7. Masonry project

　　Chen Jiadi, employee of Guangzhou Construction Engineering Vocational School

　　8. Floriculture project

　　Zhou Wanyi, a student from shenzhen polytechnic

　　9. Baking Project (Selected by National Games)

　　Wangzhendi Dongguan Technician College Staff

　　10. Water treatment technology project

　　Chen Feng, a student of Zhongshan Technician College

　　11. Sugar Art/West Point Production Project

　　Liang Haixin, a student of Zhongshan Technician College

　　(four) winners (32).

　　1. Assembly fitter project (selected by the National Games)

　　Zhai Yongbo, employee of Guangdong Technician College

　　2. Beauty project

　　Wen Xiaojie, employee of Guangdong Institute of Light Industry Technicians

　　3. Manufacturing Team Challenge Project

　　Liang Zhongwen is a student of Guangdong Mechanical Technician College.

　　Qin Haijun is a student of Guangdong Mechanical Technician College.

　　Li Xiaofeng Guangdong Mechanical Technician College students.

　　4. Electromechanical integration project

　　Qiu Jinxing, employee of Guangdong Lingnan First Technician College for Industry and Commerce.

　　Huang Baoshun, employee of Guangdong Lingnan Industrial and Commercial First Technician College

　　5. Freight Forwarding Project

　　Liu Jinling, employee of Guangdong Communications Urban Construction Technician College

　　6. Paint and decoration projects

　　Xie Manling is a student of Guangdong Communications Urban Construction Technician College.

　　7. Electrical installation project

　　Zhou Ronghui is a student of Guangzhou Technician College.

　　8. Business software solution project

　　Huang Junlong is a student of Guangzhou Industry and Trade Technician College.

　　9. Website design and development project

　　Chen Jisheng is a student of Guangzhou Industry and Trade Technician College.　　

　　10. Automobile painting project

　　Zhu Huishan is a student of Guangzhou Traffic Technician College.

　　11. Rail vehicle technology project

　　Deng Zhihang is a student of Guangzhou Traffic Technician College.

　　Liang Xin, a student of Guangzhou Traffic Technician College

　　12. Fine Woodworking Project

　　Students from Guangzhou Institute of Light Industry Technicians, Pan Ronghui

　　13. Health and social care projects

　　Tangyun Guangzhou Light Industry Technician College Staff

　　14. Restaurant services

　　Zhong Yongxin is a student of Guangzhou Institute of Light Industry Technicians.

　　15. Woodworking Project (Selected National Games)

　　Zeng Siming, employee of Guangzhou Light Industry Technician College

　　16. Pipeline and heating project

　　Zhang Zhenwei is a student of Guangzhou Public Utilities Technician College.

　　17. Plastering and partition system project

　　Lao Rongjun, employee of Guangzhou Construction Engineering Vocational School

　　18. Tile veneer project

　　Li Qiyong, employee of Guangzhou Construction Engineering Vocational School

　　19. Cooking (western food) project

　　Chen Jinchuan is a student of Guangzhou Tourism Business Vocational School.

　　20. Hairdressing project

　　Lin Yiqi, employee of Guangzhou Tourism Business Vocational School

　　21. Western-style cooking projects (selected by the National Games)

　　Fan Yingying is a student of Guangzhou Tourism Business Vocational School.

　　22. Building metal structure project

　　Xie Yike is a student of Guangzhou Shipyard Technical School.

　　23. Welding project (selected by National Games)

　　Zhang Quanqing is a student of Guangzhou Shipyard Technical School.

　　24. Body repair project

　　Liang Ruiqi is a student of Shenzhen No.2 Senior Technical School.

　　25. Welding project

　　Employees of Zhu Ruifeng Zhongjian Electric Power Construction Co., Ltd.

　　26. Industry 4.0 Project

　　Yu Xiaolang, employee of Dongguan Technician College

　　Chen Huangxing Dongguan Technician College Staff

　　27. Chemical Laboratory Technology Project

　　Feng Houxi, a student of Zhongshan Technician College　

　　(5) coaches (82).

　　1. Aircraft maintenance project

　　Lei Zhiliang is a teacher of Guangzhou Traffic Technician College.

　　2. Body repair project

　　He Yubing is a teacher of Shenzhen No.2 Senior Technical School.

　　3. Automotive technology projects

　　Fan Yongqiang Deputy Chief, Guangdong Communications Urban Construction Technician College

　　4. Automobile painting project

　　Li Shujun is a teacher of Guangzhou Traffic Technician College.

　　5. Heavy vehicle maintenance project

　　Wang Chaoshuai, teacher of Guangzhou Traffic Technician College

　　6. Freight Forwarding Project

　　Huang Ruiqiong is a teacher of Guangdong Communications Urban Construction Technician College.

　　7. Rail vehicle technology project

　　Guo Junping is a teacher of Guangzhou Traffic Technician College.

　　8. Masonry project

　　Cai Yiqin, a teacher of Guangzhou Construction Engineering Vocational School

　　9. Woodworking project

　　Zhang Jingjing, Director of the World Games Office of Guangzhou Institute of Light Industry Technicians

　　10. Concrete construction projects

　　Chen Junhui is a teacher of Guangzhou Urban Construction Technical School.

　　11. Electrical installation project

　　Li Yanbo, Teacher of Guangzhou Technician College

　　12. Fine Woodworking Project

　　Guan Gaowen, teacher of Guangzhou Institute of Light Industry Technicians.

　　13. Horticultural projects

　　Liu Baichen, teacher of Guangzhou Public Utilities Technician College

　　14. Paint and Decoration Project

　　He Peiyun, Chief of Guangdong Communications Urban Construction Technician College

　　15. Plastering and partition system project

　　Wei Yida is a teacher of Guangzhou Construction Engineering Vocational School.

　　16. Pipeline and heating project

　　Teacher of Guangzhou Public Utility Technician College, Li Zhiqiang

　　17. Refrigeration and air conditioning projects

　　Xian Xingwen, a teacher of Guangzhou Industry and Trade Technician College.

　　18. Tile veneer project

　　Chen Zifeng, a teacher of Guangzhou Construction Engineering Vocational School

　　19. Building information modeling project

　　Gu Juanni, Director of Guangdong Communications Urban Construction Technician College

　　20. CNC milling project

　　Yang Denghui, teacher of Guangdong Mechanical Technician College

　　21. CNC car project

　　Pan Zhuocheng is a teacher of Guangdong Mechanical Technician College.

　　22. Building metal structure project

　　Zou Bin, Head of Teaching and Research Department of Guangzhou Shipyard Technical School

　　23. Electronic technology projects

　　Zeng Weiye is a teacher of Guangdong Technician College.

　　24. Industrial control projects

　　Jiang Guang Teacher of Guangzhou Electromechanical Technician College

　　25. Industrial machinery projects

　　Tang Peiqiang, teacher of Guangdong Mechanical Technician College

　　26. Manufacturing Team Challenge Project

　　Chen Yonghuan, teacher of Guangdong Mechanical Technician College

　　27.CAD mechanical design project

　　Lin Zesheng is a teacher of Guangzhou Industry and Trade Technician College.

　　28. Electromechanical integration project

　　Lin Jianbin, a teacher of Guangdong Lingnan Industrial and Commercial First Technician College.

　　29. Mobile robot project

　　Liu Huan, a teacher of Guangzhou Electromechanical Technician College

　　Zhang Anfu, Teacher of Guangzhou Industry and Trade Technician College

　　30. Plastic mold project

　　Teacher of Zhang Zhibin Guangdong Mechanical Technician College

　　31. Prototyping project

　　Huang Fengjie, teacher of Guangzhou Technician College

　　32. Welding Project (Selection of World Games and Selection of National Games)

　　Cheng Kehui, employee of Zhongjian Electric Power Construction Co., Ltd.

　　33. Water treatment technology project

　　Wei Haixiang, teacher of Zhongshan Technician College

　　34. Chemical laboratory technology project

　　Liang Shiyu is a teacher of Zhongshan Technician College.

　　35. Additive manufacturing project

　　Zeng Haibo, teacher of Guangdong Mechanical Technician College

　　36. Industrial design technology projects

　　Director, Teaching and Research Section, shenzhen institute of technology School of Design, Xiufeng Wang

　　37. Industry 4.0 Project

　　Qiu Zhiqiang, teacher of Dongguan Technician College

　　38. Photoelectric technology project

　　Shen Xiaoxia, a teacher of Shenzhen Institute of Information Technology

　　39. Renewable energy projects

　　Xue Lin, teacher of Guangdong Technician College

　　40. Robot system integration project

　　Zhang Shanyan, teacher of Guangzhou Electromechanical Technician College

　　41. Information network wiring project

　　Yang Yibin, Director of Guangdong Institute of Light Industry Technicians

　　42. Network system management project

　　Huang Daojin, a teacher of Guangzhou Industry and Trade Technician College

　　43. Business software solution project

　　Cao Xiaoping, Director of Guangzhou Industry and Trade Technician College

　　44. Print media technology project

　　Chen Huichang, Teacher shenzhen institute of technology

　　45. Website design and development project

　　Li Qian, a teacher of Guangzhou Industry and Trade Technician College

　　46. Cloud computing projects

　　Su Xiangyu, Director of shenzhen institute of technology Cloud Computing Teaching and Research Section

　　47. Network security project

　　Peng Jin, teacher of Guangdong Technician College

　　48. Mobile application development projects

　　Ye Chonghan, a teacher of Guangzhou Industry and Trade Technician College.

　　49. Fashion technology project

　　Li Shaoping, teacher of Guangzhou Baiyun Industrial and Commercial Technician College

　　50. Floriculture project

　　Xie Lijuan, Vice President of shenzhen polytechnic College of Chemistry and Biotechnology

　　51. Graphic design technology project

　　Xie Zhen, Director of the Teaching and Research Section of shenzhen institute of technology Institute of Design.

　　52. Jewelry processing project

　　Zhang Sujin is a teacher of Shunde Vocational and Technical College.

　　53. Commodity display technology project

　　Lin Yin, teacher of Guangzhou Academy of Fine Arts

　　54.3D digital game art project

　　Teacher of shenzhen institute of technology School of Design, Zhang Xiaodong

　　55. Baking project

　　Zhuang Qiongfang is a teacher of Dongguan Technician College.

　　56. Beauty projects

　　Teacher of Guangdong Institute of Light Industry Technicians, Zheng Meiyan

　　57. Sugar Art/West Point Production Project

　　Li Caiping, Teacher of Zhongshan Technician College

　　58. Cooking (western food) project (selection of World Games and selection of National Games)

　　Zou Yuhang is a teacher of Guangzhou Tourism Business Vocational School.

　　59. Hairdressing project

　　Hao Guanghong is a teacher of Guangzhou Tourism Business Vocational School.

　　60. Health and social care projects

　　Luo Shaolong, teacher of Guangzhou Institute of Light Industry Technicians

　　61. Restaurant services

　　Liang Yuanjian, a teacher of Guangzhou Institute of Light Industry Technicians

　　62. Hotel reception project

　　Lu Jing, Director of shenzhen polytechnic Hotel Management.

　　63. CNC car project (selected by National Games)

　　Zeng Haojie, teacher of Guangdong Mechanical Technician College

　　64. CNC Milling Project (Selected by National Games)

　　Li Yexiao is a teacher of Guangdong Mechanical Technician College.

　　65. Electrician project (selected by National Games)

　　Wang Zan is a teacher of Guangdong Lingnan First Technician College of Industry and Commerce.

　　66. Assembly fitter project (selected by National Games)

　　Zhang Shuilian is a teacher of Guangdong Technician College.

　　67. Electronic Technology Project (Selected National Games)

　　Qiu Jifeng, teacher of Guangdong Technician College

　　68.CAD mechanical design project (selected by National Games)

　　Tan Weichuang is a teacher of Guangzhou Industry and Trade Technician College.

　　69. Automobile maintenance project (selected by China National Games)

　　Liu Jinchuang is a teacher of Guangdong Communications Urban Construction Technician College.

　　70. Intelligent Technology Project of New Energy Vehicles (Selected by National Games)

　　Yin Xiangyang, teacher of Guangzhou Electromechanical Technician College

　　71. Woodworking Project (Selected National Games)

　　Liu Zhiheng, a teacher of Guangzhou Institute of Light Industry Technicians

　　72. Masonry Project (Selected by National Games)

　　Zheng Lihong, a teacher of Guangzhou Construction Engineering Vocational School

　　73. Interior Decoration Design Project (Selected by National Games)

　　Liang Jiasheng, teacher of Guangdong Communications Urban Construction Technician College

　　74. Network System Management Project (Selected National Games)

　　Wu Yueshan, teacher of Guangzhou Industry and Trade Technician College

　　75. Internet of Things Technology Project (Selected National Games)

　　Chen Waiping, Deputy Director of Guangdong Technician College

　　76. Information Network Wiring Project (Selected by National Games)

　　Huang Yiming, a teacher of Guangdong Institute of Light Industry Technicians

　　77. Jewelry Processing Project (Selected by National Games)

　　Ningshuiqing Guangzhou Nanhua Industry and Trade Senior Technical School Teacher

　　78. Health Care Project (Selected by National Games)

　　Wang Xiaocong, Senior Lecturer, Guangzhou Institute of Light Industry Technicians

　　79. Restaurant Services (Selected National Games)

　　Teacher Guo Na guangzhou institute of technology

　　80. Baking Project (Selected by National Games)

　　Jiang Yanying Dean of School of Food Science and Engineering, Dongguan Technician College

　　81. Social Sports Guidance (Fitness) Project (Selected National Games)

　　Zhijun Zhou, Teacher of Physical Education College of Guangzhou University.

　　(six) technical guidance experts (81).

　　1. Aircraft maintenance project

　　Wang Lanbin, Teacher of Guangzhou Traffic Technician College

　　2. Body repair project

　　Zhang Hua, a teacher of Shenzhen No.2 Senior Technical School

　　3. Automotive technology projects

　　Qin Qiwu, teacher of Guangdong Communications Urban Construction Technician College

　　4. Automobile painting project

　　Chen Jinhui, teacher of Guangzhou Traffic Technician College

　　5. Heavy vehicle maintenance project

　　Wang Shangjun, Director of Guangzhou Traffic Technician College

　　6. Freight Forwarding Project

　　Sun Qiaoling Deputy Chief, Guangdong Communications Urban Construction Technician College

　　7. Rail vehicle technology project

　　Huang Luoning, teacher of Guangzhou Traffic Technician College

　　8. Masonry project

　　Lin Xiaobin, a teacher of Guangzhou Construction Engineering Vocational School

　　9. Woodworking project

　　Wu Xiaojin, teacher of Guangzhou Institute of Light Industry Technicians.

　　10. Concrete construction projects

　　Xiao Chuanghai, Vice President of Guangzhou Urban Construction Technical School

　　11. Electrical installation project

　　Chen Xiantong is a teacher of Guangzhou Technician College.

　　12. Fine Woodworking Project

　　Zhai Zixi is a teacher of Guangzhou Institute of Light Industry Technicians.

　　13. Horticultural projects

　　Yang Lei, Director of Urban Construction Department of Guangzhou Public Utilities Technician College

　　14. Paint and Decoration Project

　　Deng Tai, Chief of Guangdong Communications Urban Construction Technician College

　　15. Plastering and partition system project

　　Wu Xiantao, a teacher of Guangzhou Construction Engineering Vocational School

　　16. Pipeline and heating project

　　Deng Mingjie, teacher of Guangzhou Public Utilities Technician College

　　17. Refrigeration and air conditioning projects

　　Lin Xiaoyue, Deputy Director of Guangzhou Industry and Trade Technician College

　　18. Tile veneer project

　　Qin Moufu is a teacher of Guangzhou Construction Engineering Vocational School.

　　19. Building information modeling project

　　Zhang Haixia Deputy Director, Department of Architectural Engineering, Guangdong Communications Urban Construction Technician College

　　20. CNC milling project

　　Lin Jinsheng, teacher of Guangdong Mechanical Technician College

　　21. CNC car project

　　Yu Yuanjie, teacher of Guangdong Mechanical Technician College

　　22. Building metal structure project

　　Xie Heqing, President of Guangzhou Shipyard Technical School

　　23. Electronic technology projects

　　Director of Guangdong Technician College, Wang Weimin

　　24. Industrial control projects

　　Yao Zhonghua, teacher of Guangzhou Electromechanical Technician College

　　25. Industrial machinery projects

　　Teacher of Zhang Guohua Guangdong Mechanical Technician College

　　26. Manufacturing Team Challenge Project

　　Zhong Shixiong, teacher of Guangdong Mechanical Technician College

　　27.CAD mechanical design project

　　Wu Hongdong, Vice President of Guangzhou Industry and Trade Technician College

　　28. Electromechanical integration project

　　Zhang Songwen is a teacher of Guangdong Lingnan First Technician College of Industry and Commerce.

　　29. Mobile robot project

　　Pang Chun, a teacher of Guangzhou Electromechanical Technician College

　　30. Plastic mold project

　　Teacher of Li Weiguo Guangdong Mechanical Technician College

　　31. Prototyping project

　　Teacher of Guangzhou Technician College in Zhao Xiaoxia

　　32. Welding project

　　Zeng Lichong, Director of Guangzhou Shipyard Technical School

　　33. Water treatment technology project

　　Lai Huizhen, teacher of Zhongshan Technician College

　　34. Chemical laboratory technology project

　　Ru Zhenguang, teacher of Zhongshan Technician College

　　35. Additive manufacturing project

　　Teacher of Zhang Zhikun Guangdong Mechanical Technician College

　　36. Industrial design technology projects

　　Wang Fangliang, Deputy Director of Art Department of Shenzhen University

　　37. Industry 4.0 Project

　　Li Ying is a teacher of Dongguan Technician College.

　　38. Photoelectric technology project

　　Xia Linzhong, Vice President of School of Electronics and Communication, Shenzhen Institute of Information Technology

　　39. Renewable energy projects

　　Chen Shisheng is a teacher of Guangdong Technician College.

　　40. Robot system integration project

　　Lin Qinshi is a teacher of Guangzhou Electromechanical Technician College.

　　41. Information network wiring project

　　Ruan Weizhuo, teacher of Guangdong Institute of Light Industry Technicians

　　42. Network system management project

　　Li Qunjia is a teacher of Guangzhou Industry and Trade Technician College.

　　43. Business software solution project

　　Zhang Zeguang, Teacher of Guangzhou Industry and Trade Technician College

　　44. Print media technology project

　　Yang Guangyi, Dean of shenzhen institute of technology School of Communication Engineering

　　45. Website design and development project

　　Chen Wuchai, Deputy Director of Guangzhou Industry and Trade Technician College

　　46. Cloud computing projects

　　Li Wenyuan, Deputy Director of Guangzhou Industry and Trade Technician College

　　47. Network security project

　　Zhang Huanming, teacher of Guangdong Technician College

　　48. Mobile application development projects

　　Zhao Qinde, Director of Guangzhou Industry and Trade Technician College

　　49. Fashion technology project

　　Jiang Shaorong, Director of Clothing Department of Guangzhou Baiyun Industrial and Commercial Technician College

　　50. Floriculture project

　　Ding Zhiyin, teacher of shenzhen polytechnic Institute of Chemistry and Biotechnology.

　　51. Graphic design technology project

　　Xu Weixiong, Dean of shenzhen institute of technology School of Design

　　52. Jewelry processing project

　　Wu Huazhou, Vice President of Guangzhou Nanhua Industry and Trade Senior Technical School

　　53. Commodity display technology project

　　Yang Ketong, a teacher of Guangdong Institute of Light Industry Technicians

　　54.3D digital game art project

　　Wen Hao, Director of the Teaching and Research Section of shenzhen institute of technology School of Design.

　　55. Baking project

　　Chen Xiquan, Vice President of School of Food Science and Engineering, Dongguan Technician College

　　56. Beauty projects

　　Xiang Sujie, Director of Guangdong Institute of Light Industry Technicians

　　57. Sugar Art/West Point Production Project

　　Teacher of Zhongshan Technician College, Gao Xiaolong

　　58. Cooking (western food) project

　　Gu Guoqing is a teacher of Guangzhou Tourism Business Vocational School.

　　59. Hairdressing project

　　Tan Bin, Chief of Training Section, Guangzhou Tourism Business Vocational School

　　60. Health and social care projects

　　Yan Wantong is a teacher of Guangzhou Institute of Light Industry Technicians.

　　61. Restaurant services

　　Tong Yali, Senior Lecturer, Guangzhou Institute of Light Industry Technicians

　　62. Hotel reception project

　　Shi Qiang, Vice President of shenzhen polytechnic School of Management

　　63. CNC car project (selected by National Games)

　　Chen Zhimin, teacher of Guangdong Mechanical Technician College

　　64. CNC Milling Project (Selected by National Games)

　　Tian Zhenji, teacher of Guangdong Mechanical Technician College

　　65. Electrician project (selected by National Games)

　　Zeng Jian is a teacher of Guangdong Lingnan First Technician College for Industry and Commerce.

　　66. Assembly fitter project (selected by National Games)

　　Cao Yong, Director of Guangdong Technician College

　　67. Electronic Technology Project (Selected National Games)

　　Director of Guangdong Technician College, Zhang Guoliang

　　68.CAD mechanical design project (selected by National Games)

　　Zhai Enmin, a fifth-level employee of Guangzhou Industry and Trade Technician College.

　　69. Automobile maintenance project (selected by China National Games)

　　Wu Peijian, teacher of Guangdong Communications Urban Construction Technician College

　　70. Intelligent Technology Project of New Energy Vehicles (Selected by National Games)

　　He Hanming is a teacher of Guangzhou Electromechanical Technician College.

　　71. Woodworking Project (Selected National Games)

　　Pan Yongjian, a teacher of Guangzhou Institute of Light Industry Technicians

　　72. Masonry Project (Selected by National Games)

　　Liang Zhibin, a teacher of Guangzhou Construction Engineering Vocational School

　　73. Interior Decoration Design Project (Selected by National Games)

　　Lin Jianghong, teacher of Guangdong Communications Urban Construction Technician College

　　74. Network System Management Project (Selected National Games)

　　Deputy Director, Guangzhou Industry and Trade Technician College, Chen Jingjun

　　75. Internet of Things Technology Project (Selected National Games)

　　Zheng Weizhen, a teacher of Guangdong Technician College

　　76. Information Network Wiring Project (Selected by National Games)

　　Teacher of Guangdong Institute of Light Industry Technicians, Liu Dongdong

　　77. Jewelry Processing Project (Selected by National Games)

　　Feng Quanen, teacher of Guangzhou Nanhua Industry and Trade Senior Technical School

　　78. Health Care Project (Selected by National Games)

　　Li Yiting, Senior Lecturer, Guangzhou Institute of Light Industry Technicians

　　79. Restaurant Services (Selected National Games)

　　Kong Xianghua, General Manager of Guangzhou Xinghewan Peninsula Hotel

　　80. Baking Project (Selected by National Games)

　　Dragon Beauty Teacher of Dongguan Technician College

　　81. Social Sports Guidance (Fitness) Project (Selected National Games)

　　Zhao Yizhuo, Vice President of School of Continuing Education, Guangdong Sports Vocational and Technical College

　　II. List of Commendations for Running the Games

　　(1) Games-hosting staff (190).

　　Chen Huang, Deputy Director, General Office of Guangdong Provincial Government, Comprehensive Division II

　　Yang Fang, Deputy Director of Information Department of Propaganda Department of Guangdong Provincial Party Committee

　　Wang Qian, cadre of Information Office of Propaganda Department of Guangdong Provincial Party Committee

　　Zeng Youyi, Deputy Director of Budget Department of Guangdong Provincial Department of Finance

　　Liu Yushi, the second-level director of the Social Security Department of Guangdong Provincial Department of Finance

　　Jiang Fei, second-level director of the Art Department of Guangdong Provincial Department of Culture and Tourism

　　Gao Yan, Deputy Director of Health Bureau of Guangdong Provincial Health and Wellness Committee

　　Deng Susan, the third-level director of the Emergency Support and Plan Management Department of Guangdong Provincial Emergency Management Department.

　　Yao Jiong, Deputy Director of Fire Prevention Supervision Department of Guangdong Provincial Fire Rescue Corps

　　Li Yehui, Deputy Director of Guangdong Volunteer Action Command Center

　　Guo Xiangyu, reporter from Guangdong-Hong Kong-Macao Greater Bay Area Headquarters of China Central Radio and Television.

　　Liang Jiamin, Second Investigator, guangdong provincial department of human resources and social security Policy Research Office

　　Qiu Jing, Director of guangdong provincial department of human resources and social security Propaganda Department

　　Hou Wenxiang is a cadre at the official level in guangdong provincial department of human resources and social security office.

　　Jiang Geling, Deputy Director of guangdong provincial department of human resources and social security Finance Department

　　Gao Chao, Deputy Director of guangdong provincial department of human resources and social security Finance Department

　　Tao Zehui, the third-level director of guangdong provincial department of human resources and social security Finance Department.

　　Shi Chao, Deputy Director of guangdong provincial department of human resources and social security Talent Development Department

　　Wen Shirang is a first-class researcher of guangdong provincial department of human resources and social security Vocational Capacity Building Department.

　　Chen Junchuan, Second-level Investigator, guangdong provincial department of human resources and social security Vocational Capacity Building Department.

　　Zhang Qin, Deputy Director of guangdong provincial department of human resources and social security Vocational Capacity Building Division

　　Bao Bin, the second-level director of guangdong provincial department of human resources and social security Vocational Capacity Building Department.

　　Liu Qigang, Director of guangdong provincial department of human resources and social security Technician Education Management Office

　　Lin Qi, Deputy Director of guangdong provincial department of human resources and social security Technician Education Management Office

　　Zhang Chuanyu, First-level Director of guangdong provincial department of human resources and social security Technician Education Management Office

　　Li Shangjun, Director of guangdong provincial department of human resources and social security Wage and Welfare Department　

　　Ye Lei, Director of Guangdong Vocational Skills Service Guidance Center

　　He Xiuwen, Deputy Director of Guangdong Vocational Skills Service Guidance Center

　　Yang Fan, Deputy Director of Guangdong Vocational Skills Service Guidance Center

　　Zeng Ying, Chief of Guangdong Vocational Skills Service Guidance Center

　　Huang Weibai, Deputy Chief, Guangdong Vocational Skills Service Guidance Center

　　Xing Shidan, Deputy Chief, Guangdong Vocational Skills Service Guidance Center

　　Zhang Peiye is a cadre at the official level of Guangdong Vocational Skills Service Guidance Center.

　　Chen Feng, Director of Guangdong Vocational and Technical Teaching and Research Section

　　Chen Zhigang, Deputy Director of Guangdong Vocational and Technical Teaching and Research Section

　　Cao Guoping, Deputy Researcher, Guangdong Vocational and Technical Teaching and Research Section

　　Longli, Chief of Guangdong Vocational and Technical Teaching and Research Section

　　Liu Jiecao, staff of guangdong provincial department of human resources and social security Municipal Affairs Service Center

　　Yu Yiqun is a cadre of Guangdong Provincial Labor Relations Coordination Center.

　　Chen Suwu, Director of Guangdong Vocational Training Bureau

　　Xiong Liyi, Deputy Director of Guangdong Vocational Training Bureau

　　Qiu Lu, Director of Guangdong Vocational Training Bureau Office

　　Zhou Zhikui, Party Secretary of Guangdong Technician College

　　Huang Cunzu, Deputy Secretary of the Party Committee of Guangdong Technician College

　　Deng Wencan, Director of Guangdong Technician College

　　Li Yong, Director of Guangdong Technician College

　　Director of Guangdong Technician College, Li Yongzhong

　　Xiong Shishi, Chief of Guangdong Technician College

　　Chen Tao, teacher of Guangdong Technician College

　　Ding Li, teacher of Guangdong Technician College

　　Tan Xinhui, teacher of Guangdong Technician College

　　Yue Xiangqian, Party Secretary of Guangdong Institute of Light Industry Technicians

　　Chen Yuan, Vice President of Guangdong Institute of Light Industry Technicians

　　Liu Yixing, Director of Guangdong Institute of Light Industry Technicians

　　Li Guangzhong, Director of Guangdong Institute of Light Industry Technicians

　　Zhao Wenyin, teacher of Guangdong Institute of Light Industry Technicians

　　Luo Jiajin, teacher of Guangdong Institute of Light Industry Technicians

　　Feng Weiyuan, Party Secretary of Guangdong Mechanical Technician College

　　Li Zuozhuan, Vice President of Guangdong Mechanical Technician College

　　Li Zhiqiang, Director of the Office of Guangdong Mechanical Technician College

　　Li Ming, Director of Guangdong Mechanical Technician College

　　Zhou Yuju, Deputy Director of Guangdong Mechanical Technician College Office

　　Chen Jianli, Deputy Director of Guangdong College of Mechanical Technicians.

　　Zhang Zhen, Deputy Director of Guangdong Mechanical Technician College

　　Wu Qinhong, Deputy Chief, Guangdong Mechanical Technician College

　　Wen Shubin, teacher of Guangdong Mechanical Technician College

　　Zhan Zhiyuan, teacher of Guangdong Mechanical Technician College

　　Wang Huaxiong, teacher of Guangdong Mechanical Technician College

　　Zheng Yuhui, teacher of Guangdong Mechanical Technician College

　　Chen Yu, a teacher of Guangdong Mechanical Technician College

　　Liao Xiancai, Vice President of Guangdong Communications Urban Construction Technician College

　　Cai Shaonan, Vice President of Guangdong Communications Urban Construction Technician College

　　Liu Jun, Vice President of Guangdong Communications Urban Construction Technician College

　　Zhu Jinhui, Chief of Guangdong Communications Urban Construction Technician College

　　Li Liqin, Chief of Guangdong Communications Urban Construction Technician College

　　Shen Zhongjie, Head of Teaching and Research Department of Guangdong Communications Urban Construction Technician College

　　Deng Huasheng, teacher of Guangdong Communications Urban Construction Technician College　

　　Zheng Wei, a teacher of Guangdong Communications Urban Construction Technician College

　　Liang Xiangjing, teacher of Guangdong Communications Urban Construction Technician College

　　Liu Xiang, a teacher of Guangdong Communications Urban Construction Technician College

　　Zhang Zhuqiang, Vice President of Guangdong Lingnan Industrial and Commercial First Technician College

　　Deng Yazhen is a teacher of Guangdong Lingnan First Technician College of Industry and Commerce.

　　Ye Zijin is a teacher of Guangdong Lingnan First Technician College for Industry and Commerce.

　　Lai Xiuzhen, a teacher of Guangdong Lingnan Industrial and Commercial First Technician College.

　　Tian Lin, Vice President of Guangdong Southern Technician College

　　Lu Yi, Vice President of Guangdong Sports Vocational and Technical College

　　Zou Chao, Head of Continuing Education College of Guangdong Sports Vocational and Technical College

　　Deputy Director, Comprehensive Supervision Department, Guangzhou Municipal Health and Wellness Committee, Li Hailin

　　Xie Hewei, Deputy Squadron Leader of Public Security Management Brigade, Haizhu District Branch of Guangzhou Public Security Bureau

　　Wang Quan, Deputy Squadron Leader of No.3 Middle Team of Public Security Management Brigade, Tianhe District Branch of Guangzhou Public Security Bureau, and second-class sheriff.

　　Chief, Emergency and Plan Management Section, Haizhu District Emergency Management Bureau, Guangzhou City, Chen Yongming

　　Zheng Haorui, junior professional and technical post of Yuexiu District Brigade of Guangzhou Fire Rescue Detachment.

　　Tao Xu, Director of Vocational Capacity Building Division of Guangzhou Human Resources and Social Security Bureau

　　Xia Xiaodong Director, Technical Education Management Office, Guangzhou Human Resources and Social Security Bureau

　　Yin Yi, Director of Guangzhou Vocational Skills Appraisal Guidance Center

　　Zhou Qun, Director of Guangzhou Vocational Skills Appraisal Guidance Center

　　Lin Heng, Deputy Director of Guangzhou Vocational Skills Appraisal Guidance Center

　　Huang Hua, Deputy Director of Guangzhou Vocational Skills Appraisal Guidance Center

　　Lei Jianhui, employee of Guangzhou Vocational Skills Appraisal Guidance Center

　　Sui Hong, Grade 5 Staff of Guangzhou Personnel Testing Center

　　Wang Zuogen, Party Secretary of Guangzhou Technician College

　　Vice President of Guangzhou Technician College, Liu Haibo

　　Chen Shi, Vice President of Guangzhou Technician College

　　Liu Yi, Deputy Director of Guangzhou Technician College Skills Competition Center

　　Liao Dongqing, Secretary of the Youth League Committee of Guangzhou Technician College

　　Wang Lantao, Teacher of Guangzhou Technician College

　　Tang Weiqun, Dean of Guangzhou Industry and Trade Technician College

　　Zeng Wei, Vice President of Guangzhou Industry and Trade Technician College

　　Zhong Xiuping, Vice President of Guangzhou Industry and Trade Technician College

　　Zhang Lifang, Vice President of Guangzhou Industry and Trade Technician College

　　Chen Fengzhen, Director of Guangzhou Industry and Trade Technician College

　　Chen Zhijia, Director of Guangzhou Industry and Trade Technician College

　　Director of Guangzhou Industry and Trade Technician College, Liu Chiping

　　Deputy Director, Guangzhou Industry and Trade Technician College, Yang Lili

　　Teacher of Linchu Town Guangzhou Industry and Trade Technician College

　　Zhong Jianwei, teacher of Guangzhou Industry and Trade Technician College

　　Lai Shenggui, a teacher of Guangzhou Industry and Trade Technician College

　　Yi Jiayi, a teacher of Guangzhou Industry and Trade Technician College

　　Yang Min, Dean of Guangzhou Electromechanical Technician College

　　Lu Chusheng, Vice President of Guangzhou Electromechanical Technician College

　　Zheng Weihao, teacher of Guangzhou Electromechanical Technician College

　　Wang Fei, a teacher of Guangzhou Electromechanical Technician College

　　Teacher of Guangzhou Electromechanical Technician College, Zhang Yaowen

　　Li Yang, a teacher of Guangzhou Electromechanical Technician College

　　Chen Li, a teacher of Guangzhou Electromechanical Technician College

　　Zou Jing, Party Secretary of Guangzhou Institute of Light Industry Technicians

　　Chen Yanhuai, Senior Lecturer, Guangzhou Institute of Light Industry Technicians

　　Mao Ping Senior Lecturer, Guangzhou Institute of Light Industry Technicians

　　Dong Yunjie Lecturer, Guangzhou Institute of Light Industry Technicians

　　Chen Xin, a teacher of Guangzhou Light Industry Technician College.

　　Ma Ruiting Lecturer, Guangzhou Institute of Light Industry Technicians

　　Tang Liangliang, teacher of Guangzhou Institute of Light Industry Technicians

　　Xu Jinli, Director, World Games Office, Guangzhou Institute of Light Industry Technicians

　　Liao Ying, Director, World Games Office, Guangzhou Institute of Light Industry Technicians

　　Cheng Zhenyang, Dean of Guangzhou Public Utilities Technician College

　　Liu Yi, Vice President of Guangzhou Public Utilities Technician College

　　Zhang Kunxiao, Director of Academic Affairs Office of Guangzhou Public Utilities Technician College

　　Wang Yudong, Teacher of Guangzhou Public Utilities Technician College

　　Ren Huixia, Dean of Guangzhou Traffic Technician College

　　He Zijian, teacher of Guangzhou Traffic Technician College

　　Liao Zhongqing, teacher of Guangzhou Traffic Technician College　

　　Wang Fengxiang, teacher of Guangzhou Traffic Technician College

　　Peng Zeming is a teacher of Guangzhou Traffic Technician College.

　　Zhou Qiang Assistant to the President of Guangzhou Baiyun Industrial and Commercial Technician College

　　Gong Ligen, Director, Department of Clothing, Guangzhou Baiyun Industrial and Commercial Technician College

　　Pan Xiaomei, Deputy Director, Clothing Department, Guangzhou Baiyun Industrial and Commercial Technician College

　　Ye Qiang, President of Guangzhou Nanhua Industry and Trade Senior Technical School

　　Wei Yuan Deputy Director of Academic Affairs Office of Guangzhou Nanhua Industry and Trade Senior Technical School

　　Assistant to the Principal of Turao Guangzhou Nanhua Industry and Trade Senior Technical School

　　Ye Zhong, President of Guangzhou Urban Construction Technical School

　　Fan Zhe, Chief of Guangzhou Urban Construction Technical School

　　Lao Qing, former director of Guangzhou Shipyard Technical School

　　Zeng Qixiong, Director of Technical School of Guangzhou Shipyard

　　Liu Chunping, Head of Teaching and Research Department of Guangzhou Shipyard Technical School

　　Teacher of Yu Guoping Guangzhou Shipyard Technical School

　　Chen Lijing, President of Guangzhou Construction Engineering Vocational School

　　He Jiangchun, Vice President of Guangzhou Construction Engineering Vocational School

　　Chen Jinxing, Chief of Guangzhou Construction Engineering Vocational School

　　Wu Yingnan, Chief of Guangzhou Construction Engineering Vocational School

　　Ye Xiaobo, Deputy Chief, Guangzhou Construction Engineering Vocational School

　　Chen Yiping, Vice President of Guangzhou Tourism Business Vocational School

　　Ma Jianxiong is a teacher of Guangzhou Tourism Business Vocational School.

　　Peng Zhihui is a teacher of Guangzhou Tourism Business Vocational School.

　　Peng Jian is a teacher of Guangzhou Tourism Business Vocational School.

　　Deputy Director of Laikang Shenzhen Vocational Skills Appraisal and Guidance Office

　　Guan Mingxiang Dean, School of Electronics and Communication, Shenzhen Institute of Information Technology

　　Full-time teacher of Zhou Zhiwen Shenzhen Institute of Information Technology

　　Li Bing, Director of shenzhen polytechnic Academic Affairs Office

　　Ye Xue, teacher of shenzhen polytechnic Institute of Chemistry and Biotechnology.

　　Yuan Jun, Director of shenzhen institute of technology Skills Competition Office

　　Chen Pin, Director of General Office of shenzhen institute of technology Institute of Design

　　Lai Daoguang, teacher of shenzhen institute of technology School of Design.

　　Teacher of Puye shenzhen institute of technology School of Design

　　Zhong Fengliang, Teacher shenzhen institute of technology

　　Jiao Yu shenzhen institute of technology teacher

　　Meng Xia shenzhen institute of technology teacher

　　Luo Dechao, President of Shenzhen No.2 Senior Technical School

　　Liu Kun, Head of Competition Work of Shenzhen No.2 Senior Technical School

　　Li Gang is a teacher of Shenzhen No.2 Senior Technical School.

　　Feng Qilian Assistant to the President of Zhuhai Technician College

　　Liu Bo, Deputy Director of Modern Service Department of Zhuhai Technician College

　　Zhi Li and Vice President of Dongguan Technician College.

　　Liu Huiqiang, Director of Competition Office of Dongguan Technician College

　　Miao Rilin, Director of Food Department, School of Food Science and Engineering, Dongguan Technician College

　　Chen Xicai, Director of Technology Center of Intelligent Manufacturing College of Dongguan Technician College

　　Tan Chun, Vice President of Zhongshan Technician College

　　Fu Sha, Director of Academic Affairs Office of Zhongshan Technician College

　　Liang Haizhen, Department of Electrical Application, Zhongshan Technician College

　　Ling Xingcheng, Head of the Department of Food and Chemical Engineering, Zhongshan Technician College

　　Cai Ming, Executive Manager of Yemai Wenlv Education (Shenzhen) Co., Ltd.

　　(two) technical support and implementation support units (26).

　　Guangdong province vocational skills service guidance center

　　guangdong technician institute

　　Guangdong light industry technician college

　　guangdong machinery technician college

　　Guangdong province traffic urban construction technician college

　　guangdong province south of the five ridges business first technician college

　　guangdong vocational institute of sports

　　Guangzhou technician college

　　Guangzhou Industry & Trade Technician College

　　Guangzhou electromechanical technician college

　　Guangzhou light industry technician college

　　guangzhou city public utilities technician college

　　Guangzhou Traffic Technician College

　　Guangzhou Baiyun Industrial and Commercial Technician College

　　Guangzhou nanhua industry & trade senior technician school

　　Guangzhou urban construction skilled workers school

　　Guangzhou shipyard skilled workers school

　　Guangzhou constructional engineering vocational school

　　guangzhou vocational school of tourism and business

　　shenzhen technician institute

　　Shenzhen 2 nd senior technician school

　　Shenzhen Institute of Information Technology

　　Shenzhen Polytechnic

　　Zhuhai technician college

　　Dongguan technician college

　　zhongshan technician college

　　(3) Organizers and relevant departments (14).

　　guangzhou municipal government

　　guangdong provincial department of human resources and social security

　　Publicity Department of Guangdong Provincial Party Committee

　　Education Department of Guangdong

　　Guangdong Provincial Public Security Department

　　Guangdong Provincial Finance Department

　　Guangdong Provincial Department of Culture and Tourism

　　Guangdong Provincial Health and Wellness Committee

　　Guangdong Provincial Emergency Management Department

　　Guangdong province fire rescue corps

　　Guangdong Provincial Committee of Communist Youth League

　　Central radio and television reception desk Guangdong-Hong Kong-Macao Greater Bay Area head office

　　guangzhou municipal bureau of human resources and social security

　　Shenzhen Human Resources and Social Security Bureau

Celebrate the Spring Festival and celebrate the New Year’s Eve

New Year’s Eve, one of the biggest traditional festivals in China, refers to the evening of the last day of the lunar year, and it is also called New Year’s Eve because it often falls on the 30th day of the twelfth lunar month. Since the last day of the year is called "Year’s Eve", that night is called "New Year’s Eve". However, due to the lunar calendar, the date of New Year’s Eve may be 30 or 29 at the end of the year. But in any case, it is the end of the lunar year.

According to "Lu’s Spring and Autumn Ji Dong Ji", the ancients used drums to drive out the "ghost of plague" on the day before the New Year, which is the origin of the "New Year’s Eve" festival. It is said that the earliest mention of the name "New Year’s Eve" is the historical records such as "Local Customs" written by Zhou Chu in the Western Jin Dynasty.

In fact, the original meaning of the concepts of Spring Festival and New Year comes from agriculture. "Shuo Wen ● He Bu" records: "Year is ripe. "In ancient times, people called the growth cycle of the valley" year ". The Xia calendar came into being in Xia and Shang Dynasties. The period of the moon’s waning and waning is regarded as a month, and a year is divided into twelve months. Every month, the day when the moon is not seen is the new moon, and the first day of the first month is called the beginning of the year, which is also called the year. The name of Nian began in the Zhou Dynasty, and it was not officially fixed until the Western Han Dynasty, and it continues to this day.

However, in ancient times, the first day of the first month was called "New Year’s Day". Until the victory of the Revolution of 1911 in modern China, in order to conform to the farming season and facilitate statistics, the Nanjing Provisional Government stipulated that the summer calendar should be used among the people, and the Gregorian calendar should be implemented in government agencies, factories, mines, schools and organizations, with the first day of January of the Gregorian calendar as New Year’s Day and the first day of the first month of the lunar calendar as the Spring Festival.

New China was founded. At the first plenary session of the China People’s Political Consultative Conference, it was adopted to use the Gregorian calendar era, and the first day of January of the Gregorian calendar was designated as New Year’s Day, commonly known as the Gregorian calendar year. The first day of the first lunar month is usually around beginning of spring, so the first day of the first lunar month is designated as the Spring Festival, commonly known as the lunar calendar.

In the traditional sense, the Spring Festival refers to the sacrificial rites from La Worship on the eighth day of the twelfth lunar month or on the 23rd of the twelfth lunar month to the fifteenth day of the first lunar month, with New Year’s Eve and the first day of the first lunar month as the climax. During the Spring Festival, a traditional festival, the Han nationality and most ethnic minorities in our country will hold various celebration activities, most of which are mainly about offering sacrifices to gods and buddhas, paying homage to ancestors, getting rid of the old and spreading the new, welcoming the new year and praying for a good harvest. The activities are rich and colorful, with strong ethnic and local characteristics.

Hold out for the rest of the year

Shounian, the common name is "endure the year". "One night is even two years old, and the five hours are divided into two years." This year’s custom activity has a long history. The folk custom of observing the New Year is mainly manifested in that all houses are lit with the New Year’s fire, and the family is gathered together, and the "New Year’s fire" is kept alive, waiting for the moment to bid farewell to the old year and welcome the new year.

In ancient times, there were different customs in the north and the south. In the north, the custom of observing New Year’s Eve was mainly "staying up until New Year’s Eve". In some places, on New Year’s Eve, the whole family got together, ate New Year’s Eve, lit candles or oil lamps, chatted around the stove, kept vigil all night, and looked forward to good luck and good luck in the New Year.

There is an interesting story about the origin of the custom of observing the age: in Archaean times, there was a fierce monster scattered in the mountains and forests, and people called them "Nian". Its appearance is ferocious, its nature is ferocious, and it specializes in eating birds and animals and insects. It changes its taste every day, from kowtowing insects to living people, which makes people talk about "Nian".

Later, people gradually grasped the activity law of "Nian", which went to crowded places every 365 days, and the haunting time was after dark, and when the cock crowed at dawn, they returned to the mountains.

It is precisely because of the accurate date of the ravages of Nian and its fear of red, daytime, firelight and firecrackers that people regard this night as a gateway, which is called Nian Guan, and come up with a whole set of ways to close the New Year: on this day, every household will put up red couplets, window grilles, hang up red lanterns, light bonfires and sound firecrackers, and the whole family will sit together and eat ".

In this way, year after year, gradually formed the custom of staying up all year on New Year’s Eve. As the saying goes: the family reunion is in addition to the old year, and the lanterns are decorated to welcome the new year.

Reporter: Zhang Zhongyi.

Original title: "Celebrating the New Year’s Eve and Celebrating the New Year’s Eve"

Read the original text

Carry your dreams and start again.

　　■ Our reporter Shi Xiaoyu

　　To accelerate the realization of the grand goal of serving Chinese modernization with statistical modernization, statistical informatization construction is an important foundation and guarantee. Facing the new situation and new requirements in the new era and new journey, the party group of the National Bureau of Statistics seized the historical opportunity of the development of information technology in the whole society, worked out the layout for the construction of statistical informatization, defined the "three-step" implementation path of statistical cloud project, smart statistics phase I project and smart statistics phase II project, and promoted the construction of smart statistics project; Statistical departments at all levels throughout the country have conscientiously implemented the requirements for the reform of statistical modernization during the "14th Five-Year Plan" period and the deployment of the national statistical work conference, courageously shouldered and overcome difficulties, and made every effort to promote the construction of major projects and key tasks of statistical informatization, and made important progress in the construction of statistical informatization.

　　New breakthroughs have been made in the construction of statistical cloud project.

　　Statistical cloud project is the key task to promote the reform of statistical modernization during the 14 th Five-Year Plan period, and it is the basic project to promote the digital transformation of statistical work and the construction of intelligent statistics.

　　Based on long-term planning and careful design, the National Bureau of Statistics has compiled and completed the overall design scheme for the project implementation. On the basis of extensive investigation, it has put forward the main objectives of statistical cloud construction and defined the key tasks for the development and construction of statistical cloud "233" project. Do a good job in refining the requirements of application systems, spend a lot of time and energy together with various professions to design requirements, standardize the design of system management platform, systematically sort out the data collection and processing flow, accurately locate the functions of data management system, dig deep into the requirements of big data management, continuously optimize the design of application management platform, fully analyze and study the future business requirements of various professions, and provide basic guarantee for developing useful and effective systems.

　　On the basis of full argumentation and in-depth research, the National Bureau of Statistics took the lead in applying all domestic software and hardware products in the statistical cloud project, building the computer room of the National Unification Center, integrating the cloud resources of the National Bureau of Statistics’ data disaster recovery center, and building a statistical cloud basic cloud platform to realize centralized scheduling and management of basic resources. Complete the prototype design, function development and integrated deployment of the application system, and realize all the requirements put forward in the business requirement design stage; With the help of the whole system, several rounds of system testing were carried out, and the business backbones of various professional divisions, local bureaus and national investigation teams deeply participated in the three stages of testing, including full-process function, professional "fine decoration" and local "immersive experience", and the stability and usability of the system were gradually improved.

　　Since February, 2021, it has been officially put into construction. After nearly three years of unremitting efforts, the construction of statistical cloud project has made a comprehensive breakthrough, achieving the "seven firsts" such as the first domestic technology platform, the first large-scale application in census, the first comprehensive business process, the first comprehensive platformization, the first unified customization system, the first large-scale application of big data and machine learning technology, and the first one-click generation of statistical yearbook, which is of great significance in the history of statistical informatization construction in China.

　　Promoting the launch of statistical cloud services in batches and sections as a whole

　　The construction task of statistical cloud project has been basically completed, and 2024 is a crucial year for the full online operation of the application system. The National Bureau of Statistics has formulated the online operation work arrangement of the statistical cloud application system, which will promote the online business in batches and stages in accordance with the requirements of "one mature one, one online one".

　　According to the work arrangement, in March-April this year, a comprehensive pilot project of statistical cloud system management platform business will be organized, and in March-June, a comprehensive pilot project of statistical cloud statistical investigation system business will be carried out, which will fully guarantee the online operation of statistical investigation business in statistical cloud platform networked direct reporting system. Special pilot projects on statistical services will also be launched in various places in the first half of the year.

　　The statistical cloud business application system covers the main statistical business processes, involving almost all professional business work, covering statistical institutions at all levels in the country and most statistical survey objects, which is related to the overall situation of statistical production. The National Bureau of Statistics issued the "Notice on Developing the Construction of Provincial Nodes for Online Direct Reporting of Statistical Cloud Engineering" and supporting technical specifications to promote the construction of provincial nodes for online direct reporting by provincial statistical offices.

　　According to the requirements, provincial statistical bureaus with local investigation tasks should complete the construction or adaptation of data collection nodes, better undertake local investigation tasks in the region, strictly implement the network security responsibility system and data security responsibility system, and assume the responsibility of provincial node security construction and management. All investigation teams should fully cooperate with the comprehensive pilot of each business in the state of "actual combat", organize business training, and make full use of the achievements of statistical cloud engineering construction to carry out data processing. The provincial statistical bureaus and investigation corps will do their best to do a good job in the trial operation of the business, to ensure that the statistical production is continuous, stable and uninterrupted during the transition period of the parallel operation of the new and old systems, and to ensure that there are no problems and hidden dangers in the statistical network and data security.

　　Developing the overall design of smart statistics based on the future

　　Intelligent statistical work bears the dream of contemporary statisticians, is an important starting point for promoting statistical modernization, and is a major event in the current statistical system. As a landmark project of statistical modernization reform, smart statistics is not only a multi-dimensional upgrade and all-round promotion of statistical cloud engineering, but also a major change in statistical production methods and institutional mechanisms.

　　At the National Conference on Statistical Network Security and Informatization held recently, Sheng Laiyun, member of the Party Group and Deputy Director of the National Bureau of Statistics, comprehensively summarized the statistical network security and informatization work in the past three years, analyzed the situation and challenges faced by statistical informatization work, systematically introduced the smart statistical work, and made clear the direction and key tasks of statistical informatization construction in the future.

　　2024 is the year of laying the foundation for in-depth planning of wisdom statistics. On the one hand, we must continue to promote the project establishment of the first phase of smart statistics. The National Bureau of Statistics will improve the relevant project documents of the first phase of Smart Statistics, and do a good job in feasibility studies such as the construction of electronic statistical ledgers, classified networks, and disaster recovery systems. On the other hand, it is necessary to carefully plan the second-phase construction plan of smart statistics. The National Bureau of Statistics will continue to deepen and improve the second-phase construction plan of smart statistics, and further promote the deep integration of modern information technologies such as the Internet, big data, cloud computing, Internet of Things, blockchain, artificial intelligence and spatial information with statistical services. At the same time, provincial statistical agencies are encouraged to try first, and use modern information technology to innovate and optimize the digital management of statistical data collection, cleaning, review, summary, analysis, release, display and push, so as to accumulate experience for the construction of national smart statistics.

　　There are many dangers and obstacles ahead, and there are thousands of mountains to break through. Modern information technology provides a new means for the innovation and development of statistical informatization construction, and the "three-step" strategy of intelligent statistical construction paints a new blueprint for statistical informatization. The statistical department will gather wisdom and cohesion, accelerate the digital transformation of statistical work, create innovative, safe and efficient smart statistics, and make the beautiful blueprint of smart statistics become a reality as soon as possible.

Russia will hold the Red Square parade on Victory Day today, and Putin will attend and deliver a speech.

　　BEIJING, May 9 (Xinhua) Comprehensive Russian media reported that on May 9, local time, Russia will hold a military parade to commemorate the 78th anniversary of the victory of the Great Patriotic War in Moscow’s Red Square.

　　Russian Presidential Press Secretary peskov said that the military parade will begin at 10: 00 local time and Russian President Vladimir Putin will deliver a speech. Leaders of many countries will attend the military parade in the center of the stands with Putin. After the military parade, the leaders will go to the Tomb of the Unknown Soldier to lay a wreath.

　　According to peskov, an informal breakfast meeting was also included in the itinerary on May 9. Putin will have breakfast with visiting multinational leaders and guests.

　　On June 24, 1945, the Soviet Union held its first military parade in Red Square to commemorate the victory of the Great Patriotic War. After the disintegration of the Soviet Union, since 1995, Russia has held a military parade and a series of celebrations on the Victory Day of the Great Patriotic War on May 9 every year.

Jinzhong Jietu X70M Price Reduction News! The maximum discount is 0.1 million, this time only.

[car home Jinzhong preferential promotion channel] is currently carrying out preferential promotion activities in Jinzhong area, with a maximum discount of RMB 1,000, and the lowest starting price is only RMB 77,900. If you are interested in this model, please click "Check the car price" in the quotation form to get a higher discount.

晋中地区捷途X70M降价消息！最高优惠0.1万，仅此一次

The exterior design of Jetway X70M shows the perfect combination of fashion and practicality. Its front face is designed in a family style with a large air intake grille, which not only enhances the recognition of the vehicle, but also enhances the overall visual impact. The body lines are smooth, the shape is full, and the overall style is steady and dynamic, showing an atmosphere and calm temperament.

晋中地区捷途X70M降价消息！最高优惠0.1万，仅此一次

Jietu X70M has a body size of 4755*1885*1695mm and a wheelbase of 2745mm, showing a spacious and comfortable interior space. The car’s side lines are smooth, with 17-inch rims. The tyre size is 235/65 R17, and the front and rear wheel tracks are 1608mm and 1603mm respectively. The overall style is steady and atmospheric.

晋中地区捷途X70M降价消息！最高优惠0.1万，仅此一次

The interior of Jietu X70M adopts simple and generous design style, and the overall layout is reasonable and humanized. The steering wheel is made of plastic, which is not advanced, but it provides practicality and convenience in manual adjustment. The center console is equipped with a 10.1-inch high-definition touch screen, which supports multimedia playback and mobile phone interconnection, and a USB interface is set in the front row to facilitate user charging and data transmission. The seat is made of fabric, which has good comfort and breathability. Both the main seat and the auxiliary seat support front-back adjustment and backrest adjustment, providing passengers with flexible riding posture selection. The second row of seats also supports backrest adjustment, which improves the riding comfort. At the same time, the rear seats can be laid down proportionally, which increases the flexibility of storage space.

晋中地区捷途X70M降价消息！最高优惠0.1万，仅此一次

Jetway X70M is equipped with a 1.5T 156 L4 engine, with a maximum power of 115kW and a maximum torque of 230 N m. With the 6-speed manual transmission, it provides a strong power output and excellent driving experience for the vehicle.