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A system that was previously comprised of multiple integrated circuits (ICs) can now be realized within a single IC, resulting in a reduction in physical size, increased operating speed, and portability for mobile applications. The system on a chip (SoC) is evidence of recent advancements in fabrication techniques and design methods.
A system-on-a-chip (SoC) is a microchip that contains all of the electronic circuits and parts that make up a particular system, like a smartphone or wearable computer, on a single integrated circuit (IC).
SoCs make it possible to tightly integrate components on a single chip, but this means that electronic devices need to be tested thoroughly before being shipped. Due to the increasing complexity of SoC devices, testing them has become increasingly difficult.
According to Wikipedia, “An integrated circuit that integrates all or most components of a computer or other electronic system” is the definition of a System on Chip. This basically means that a System on Chip can provide a computer or electronic system built in. There is no need for separate hardware.
A System on a Chip, also known as an SoC, is a single integrated circuit (IC) that houses all of the parts of a typical computer system. On an SoC, for instance, you might find I/O (input/output) ports, storage, a CPU (central processing unit), RAM (random access memory), and other components.
The Global System-On-Chip (SoC) Test Equipment Market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
This issue of Microelectronics TOE examines the most recent developments in system-on-chip (SoC) technology and offers strategic advice regarding intellectual property (IP), growth factors, obstacles, and application scope.
Media Tek’s 10 nm fabricated SoC, NVIDIA’s SoCs for autonomous vehicles, Ultra SoC’s semiconductor IP platform for performance enhancement, and Mobileye’s 5th generation of Eye Q SoCs for intelligent vehicle systems are among the innovations profiled.
Every week, global electronics-related innovations and developments are captured by the Microelectronics Tech Vision Opportunity Engine (TOE). Low power and cost, smaller size, improved viewing, display, and interface facilities, wireless connectivity, increased memory capacity, adaptability, and wearables are all contributing factors to developments in electronics.
Smart monitoring and control (touch and haptics), energy efficiency (LEDs, OLEDs, power and thermal management, energy harvesting), and high speed and improved conductivity devices (Sic, Gan, and GaAs) are among the research focus themes.
Innovations in the electronics industry are being driven by miniaturization, the need for more features, and a shift toward less power consumption. Manufacturing and design of semiconductors, flexible electronics, MEMS and NEMS, solid state lighting, advanced displays, nanoelectronics, wearable electronics, brain computer interface, advanced displays, near field communication, and next generation data storage or memory are among the technology focus areas.
