In the past 10 years, smart cities have made many breakthroughs. While typical infrastructure such as Ethernet or Wi-Fi® networks enable communication between most systems and subsystems, with the rapid growth of the Internet of Things (IoT), the nodes of various systems continue to proliferate. In order to support systems with more different subsystem nodes, IoT gateways have gradually become the driving force behind smart cities.
Whether it's flexible transportation, efficient energy or effective water and waste management, today's smart city offers a variety of systems that improve the well-being and work efficiency of citizens. For smart cities, while many technologies are indispensable, the most important aspect of implementing smart cities is having a highly interconnected infrastructure to support the sharing and exchange of overall information in the installed systems.
Currently, communication between most systems and subsystems is implemented using a typical infrastructure such as Ethernet or Wi-Fi® networks, but in order to support systems with more different subsystem nodes, the industry still has Major needs of other networks. This type of network benefits from the application of the embedded Internet of Things (IoT) gateway, which not only supports various connection types of different nodes, but also upstream Ethernet, WiFi and other networks, while also providing urgent needs in the industry. The overhead processing capability greatly reduces the workload of various types of nodes and reduces the complexity of their design. Since the complexity of the design is directly related to the cost of the node, and the proliferation of the node is the inevitable development of the IoT, the use of the embedded IoT gateway is an important consideration for achieving rapid growth of IoT and ensuring its long-term vitality and success.
From the low-level nodes to advanced cloud servers, semiconductor solutions covering the entire IoT field, key indicators such as node cost and server performance will be the focus of TI's future, and the efficiency of embedded IoT gateways will become an extremely important one. aspect. Based on the above considerations, TI offers a wide range of solutions for this area, including integrated wireless components (SimpleLinkTM wireless connectivity), high-performance processors (SitaraTM AM335x) and microcontrollers (MCUs) (TM4C12x). The solution addresses the system requirements of various IoT gateways and addresses the challenges customers face in the design process in different ways.
Among the many solutions, the TM4C129x MCU delivers efficient and unmatched CPU mix performance, on-chip memory, integrated peripherals, security, and industry-leading integrated Ethernet MAC + PHY. When used in conjunction with its stable and broad software suite, the TM4C129x MCU family is the best choice for embedded IoT gateway solutions, not only ready to experiment, but also low-cost and cloud-connected evaluation kits (EK-TM4C1294XL) or a more comprehensive Internet Development Kit (DK-TM4C129X) for proof of concept.
To what extent will the intelligence of smart cities eventually reach? In fact, this depth of intelligence will ultimately be constrained by the ability of IoT to continue to proliferate, including the overall cost of implementing intelligent systems. In the past 10 years, smart cities have made many breakthroughs, and we look forward to how the interconnection and efficiency of cities will change our lives in the coming years.
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