The global semiconductor industry is transforming rapidly due to the increasing demand for Internet of Things (IoT) devices and edge computing solutions. Semiconductors are essential in edge computing because they allow devices to perform advanced data processing and analytics locally, leading to faster decision-making and real-time insights.
While traditional cloud-based computing relies solely on centralized data centers or cloud services, edge computing processes data closer to its source, typically at the “edge” of the network. This approach reduces latency, conserves bandwidth, and improves privacy and security.
Semiconductor solutions for IoT and edge computing are essential for providing the processing power, connectivity, and security features required by these advanced systems.
Key semiconductor components for edge computing include:
Edge computing advancements are revolutionizing various sectors, including manufacturing, healthcare, and transportation. The IoT connects devices, sensors, and machines, enabling real-time data exchange and analysis. At the same time, edge computing brings computation and data storage closer to the data source, enabling faster and more efficient processing.
Cheng-Ho Chen, a highly skilled and experienced IC design engineer, has established himself as an expert in developing semiconductor solutions for edge computing applications.
He obtained his master’s degree in electrical engineering from the National Sun Yat-Sen University in Taiwan, demonstrating his expertise in wireless communication technology and statistical signal processing.
For more than a decade, Chen has worked with leading technology companies such as FARADAY Technology Corporation, Global Unichip Corp., and Qualcomm Technologies Inc., where he has contributed to more than 10 projects.
Chen has founded IC DESIGN of Semiconductor LLC. This company aims to develop innovative IoT and edge computing semiconductor solutions, focusing on AI applications.
“Advancements in semiconductor solutions for edge computing are often limited by the monopoly of large corporations in the market,” Chen said. “IC Design of Semiconductor LLC addresses this challenge by providing opportunities for small businesses and startups to access cutting-edge technology.”
IC DESIGN of Semiconductor LLC’s services will include initial performance evaluation through python, C or MATLAB programming, RTL code coding and FPGA implementation, and customer support for system-on-chip (SoC) solutions that incorporate both software and firmware.
According to a report by the World Economic Forum, IoT and edge computing have the potential to impact society and the global economy significantly. These technologies can potentially increase productivity, reduce energy consumption, improve decision-making, and enhance the quality of life for individuals and communities worldwide.
Furthermore, a study by McKinsey Global Institute reveals that IoT could generate up to $11.1 trillion in economic value annually by 2025, as businesses and public-sector organizations leverage these technologies to improve operational efficiency, enhance customer experiences, and enable new business models.
“IC DESIGN of Semiconductor LLC holds substantial merit due to its potential to generate significant revenue, create new jobs, and advance the technology in the IoT and edge computing fields,” Chen said. “Additionally, the company’s national importance is evident as it serves the strategic interests of the United States by fostering innovation and competitiveness in a critical industry.”
Given the importance of semiconductors in the rise of edge computing, Chen’s company has the potential to shape the future of real-time data processing and decision-making. IC DESIGN of Semiconductor LLC levels the playing field for small business owners and entrepreneurs who need access to these technologies to stay competitive, which enables more widespread advances in efficiency, security, and sustainability. Written by Mary Pieper