In the new technological revolution driven by innovation, the Internet of Things will undoubtedly bring greater transformational and destructive effects to the industry. It will allow us to connect the digital world with the physical world and create new services for enterprises to reach out to customers Bring far-reaching impact. Looking back to the past 2016, the embedded technology and the Internet of Things developed rapidly. Based on the consolidation of traditional applications, embedded technologies explored emerging markets and the Internet of Things (IoT) is one of the most widespread application markets. In the new technological revolution driven by innovation, the Internet of Things will undoubtedly bring greater transformational and destructive effects to the industry. It will allow us to connect the digital world with the physical world and create new services for enterprises to reach out to customers Bring far-reaching impact. 2017 has come. As the only professional exhibition in China that focuses on the embedded field, Shenzhen International Embedded System Exhibition, invited professor He Xiaoqing, a veteran expert in the field of embedded technology, will be a trend of development of embedded and Internet of Things Analysis and conclusion. First: M & A has a profound impact on embedded processor development Over the past year and some time in the future, chip suppliers are still eager to further increase profits through mergers and acquisitions to reduce costs. Chip suppliers need to make enough money on current products to fund next-generation product development, and as their costs increase, they need to find ways to increase their returns. These acquisitions we've seen lately include Quallcomm and NXP, Microchip and Atmel and Renesas and Intersil, which take 1-2 years to integrate and digest, so mergers and acquisitions in the short term can affect embedded processor technology and market development , But in the long run M & A will benefit the promotion and popularization of IoT technologies and systems. Because IoT applications require processor designs To provide solutions for end users and applications, IoT chip design emphasizes power efficiency, security, easy-to-use development tools, and reduced costs, all of which require chip vendors to research and develop Invested in the development of a more integrated, better software support for embedded processors (including microcontrollers) solutions, I believe in 2018 the industry can see more innovative embedded IoT chip solutions. M & A will lead the embedded processor to the vertical market for IoT applications, with chip market leaders shifting their focus to high-growth market opportunities such as ADAS, autopilot, machine vision, artificial intelligence (AI) and 5G. For these vertical markets, leading chip suppliers have also taken acquisition strategies, such as the recent acquisition of Haman Samsung into the automotive market, Intel acquired Movidius into the machine vision market, Movidius is a startup company, machine vision chips have been used in Xinjiang Man-machine and Google TangoAR phone, Chi Chi can be hot. Although these vertical markets are still small at this stage, there are tremendous business opportunities in the future. Chip companies are reluctant to give up these opportunities. The acquisition of chips in the vertical market will continue. The Internet of Things will focus on low cost, low power and power efficiency, and the performance of existing embedded processor and microcontroller (MCU) products is sufficient for most IoT applications. Most embedded applications do not require the highest performance, they require the best power efficiency and the lowest power consumption. Leading embedded processor vendors will continue to target the application to provide the best integration and power efficiency with the right size chip products. Once with the help of 8-bit microcomputer microcontroller (MCU), after years of tempering, ushered in the tide of things development. 32-bit microcontrollers will occupy an important territory in the low-power and always-on Internet of Things system. MCU development for the Internet of Things market will not decline, and the integration of microcontrollers will be higher and higher. The software platform will The richer, the processor and sensor and the cloud will be more and more closely. Embedded processors and microcontrollers are at the core of embedded and IoT systems and ARM is the market leader today with ARM processor-based microcontrollers and processors occupying the majority of the embedded and IoT markets Share, with the rise of innovative technologies such as machine vision, virtual reality and artificial intelligence, the role and influence of the GPU is increasing and can not be underestimated. The popularity of IoT has led to the development of low-power computing and wireless networks. In the future, new processor technologies and business models will emerge in this area. Artificial Intelligence (AI) will require further improvement in computation. Embedded edge computing Capacity, real-time play a huge role in the play, Alexa Amazon is an example, the Internet of Things and artificial intelligence will promote the development and application of new processor architecture, open source hardware (including open source chips) will be a trend. Second: IoT cloud platform into maturity There are three ways to do cloud computing: Software as a Service (SaaS), Platform as a Service (PaaS), and Infrastructure as a Service (IaaS). The IoT cloud platform is an application of cloud computing PaaS. The architecture of the IoT Cloud Platform (IoTPlatform) is shown in Figure 1 below. The IoT device, which communicates with the DeviceGateway or smart phone via Bluetooth and Zigbee wireless communication links and then connects to the IoT cloud platform through WiFi and 4G / LTE communication networks, uses the public cloud IaaS's foundation cloud services provide IoT devices with access to operational management full lifecycle services. Organic Chemical Product Series Organic chemical products are divided into alkanes and their derivatives, alkenes and their derivatives, alkynes and their derivatives, quinones, aldehydes, alcohols, ketones, phenols, ethers, anhydrides, esters, and organic acids , Carboxylates, carbohydrates, heterocycles, nitriles, halogenated, aminoacyl and others. Organic Chemical Product Series,Polyethylene And Polypropylene,Transparent Polypropylene,Organic Chemical Raw Materials QINGDAO LONG-TERM COOPERATION CHEMICAL TECHNOLOGY CO.,LTD , https://www.qd-ltc.com