Seeed is a renowned open hardware innovation platform that provides accessible and flexible development resources for creators, makers, and startups. Established in 2008, the company offers a wide range of products and services, including development boards, sensors, IoT solutions, and manufacturing services. Seeed's Seeed Fusion service provides comprehensive PCB fabrication and assembly solutions, catering to diverse prototyping and production needs. The company also operates the Seeed Studio platform, which serves as a hub for sharing hardware projects, tutorials, and resources, fostering collaboration and knowledge exchange within the maker community. Seeed is committed to enabling innovation by simplifying the process of turning ideas into reality, empowering individuals and businesses to bring their creations to life. With a strong focus on open-source values and community engagement, Seeed continues to be a driving force in the advancement of open hardware and IoT technologies.
Single Board Computers (SBCs) are compact electronic devices that contain all the necessary components of a computer on a single board. These devices typically include a microprocessor, memory, input/output interfaces, and expansion sites. The microprocessor is the core component of the SBC, responsible for performing numerical and logical processing tasks. The speed, number of cores, power consumption, and cooling type are important characteristics of the microprocessor, as they determine the overall performance and efficiency of the SBC. SBCs can be equipped with a variety of different microprocessors, including those produced by companies such as Advantech, AMD (including their core, G-series, Geode, and GX lines), ARMADA, ARM Cortex, Atom, Celeron, ColdFire, Core 2, Intel (including their Atom, Celeron, Core, LGA, Quark, Apollo, and Pentium lines), Pentium, Rabbit, RK3288, Rochchip, TI Sitara, ULV Celeron, VIA Eden, Vortex, and Z180. In addition to the microprocessor, SBCs also contain memory, which is used to store data and software instructions. The amount and type of memory present on an SBC can impact its performance and compatibility with different software applications. Input/output interfaces allow the SBC to communicate with other devices and peripherals, such as displays, keyboards, and sensors. Expansion sites provide the ability to add additional functionality or customize the SBC to specific application requirements. Overall, SBCs offer a compact and versatile solution for incorporating computing power into a wide range of devices and equipment. By selecting the appropriate microprocessor, memory, and expansion options, developers can create customized SBC solutions tailored to their unique needs.