CEO Witekio Yannick Chammings wrote that OEMs can change their position on the product design network to provide intelligence and connectivity.
When a typewriter creates a modern office, the computer changes it. Similarly, the Internet of Things has redesigned the embedded industry. Not enough to create a device that provides disconnection. The number of connections to cloud-based services has also increased to extend capabilities, provide remote access and generate large data paradigms.
Semiconductor device manufacturers have done almost "plug and play" and offer a variety of single-die chip solutions that cover almost any wired or wireless protocol. Recently, this connectivity has been fully integrated into a microcontroller in the middle of an integrated system. Developing a fully integrated product in the infrastructure can be more difficult. This is an increasingly clear task in the field of computers with the most common requirements and technologies.
The technical presentation focusing on computer resource constraints of embedded systems is still painful, but it is expected to reach tens of billions of IoT node data in the next five years. Small data will be in big data nodes. From a broader IoT perspective, data is measurable locally, but big data collects data points into regular collections for later analysis. Big data is something that many people want to use, but this is not a small by-product, but it may be something with a lower overall value.
However, if there is no small data, there is no IOT. Therefore, connected devices must be developed from a data center perspective. You need to figure out how to collect data, what you need, and how to safely and reliably transfer data to the cloud and the state of cloud storage (inventory, access). Although not a computer issue, original equipment manufacturers (OEMs) require integration domains to implement these functions on smart devices.