System On Module (SOM)

System On Module(SOM) Calixto System’s optimum SOMs are ideal “Brain” for customer’s product development. Calixto SOMs are ready to run operating systems like Linux, Android and WinCE. It also supports TI’s Starterware software & real-time operating systems like VxWorks, QNX, FreeRTOS, etc.

System On Module(SOM)

Key Features:

  1. Modularity:

    • SOMs encapsulate essential components of a computer system, including processors, memory, storage, and peripherals, into a single, modular package.
    • Modular design allows for easy integration and interchangeability of modules, facilitating customization and upgrades without overhauling the entire system.
  2. Versatility:

    • SOMs are highly versatile and can be tailored to specific project requirements.
    • Designers can choose the appropriate module based on processing power, memory capacity, and connectivity options, making them suitable for a wide range of applications.
  3. Compact Form Factor:

    • SOMs are designed to be compact, making them ideal for applications where space is limited.
    • Small form factors enable integration into devices with size constraints, such as IoT devices, wearables, and other compact electronics.
  4. Scalability:

    • SOMs provide scalability, allowing designers to choose modules that match the computational needs of their projects.
    • This scalability is particularly beneficial as it allows for the use of the same basic architecture across a range of products with varying performance requirements.
  5. Ease of Development:

    • SOMs simplify the development process by providing a pre-designed and validated computing platform.
    • Developers can focus on application-specific features rather than dealing with the complexities of designing an entire embedded system from scratch.
  6. Rapid Prototyping:

    • The modular nature of SOMs facilitates rapid prototyping, speeding up the development cycle.
    • Prototyping with SOMs allows for quicker testing and validation of concepts before moving to full-scale production.
  7. Integration with Peripheral Hardware:

    • SOMs often come equipped with various interfaces and connectivity options, enabling easy integration with a wide range of peripheral hardware components.
    • This facilitates the creation of comprehensive embedded systems with diverse functionalities.
  8. Reliability and Stability:

    • SOMs are designed for reliability and stability in embedded applications.
    • Pre-validated designs and optimized configurations contribute to the overall robustness of the embedded systems built using SOMs.
  9. Support for Diverse Applications:

    • SOMs find applications in various industries, including industrial automation, robotics, medical devices, consumer electronics, and IoT, showcasing their adaptability to diverse use cases.

In summary, the key features of SOMs revolve around modularity, versatility, compactness, scalability, ease of development, and compatibility with a wide range of applications, making them a valuable solution in the realm of embedded systems.

Share this post

Leave a Reply