- ARC EV Processors are fully programmable and configurable IP cores that are optimized for embedded vision applications
- BLE 5.0, BT Dual Mode, WiFi, ZigBee, NFC, GSM, LTE, RISC CPU for IoT applications
- Bluetooth LE v5.3 / IEEE 15.4 RF IP in TSMC 40nm & SMIC 55nm (Silicon proven IP)
- Bluetooth LE v5.3 / Zigbee 3 RF/PHY for Global Foundry 55nm (Silicon proven IP)
- Bluetooth low energy v5.3 Baseband Controller, Protocol Software Stack and Profiles IP
- Bluetooth low energy v5.3 Software based Linklayer IP
- More Products...
|
IP-SOC DAYS 2025 IP-SOC DAYS 2024 IP-SOC DAYS 2023 IP-SOC DAYS 2022 IP-SOC DAYS 2021 IP-SOC 2024 IP-SOC 2023 IP-SOC 2022 IP-SOC 2021
|
|||||||
|
|
||||||
Role of FD-SOI in Powering AI-Driven IoT Applications
- Nordic Semiconductor and Sercomm Corporation partner on cellular IoT module designed for applications demanding reliable, power-saving performance
- Ceva Brings Precise, Spatial Control to Smart TV, IoT Interfaces
- Nordic Semiconductor to showcase cutting-edge cellular IoT solutions at MWC Shanghai 2025
- How to Optimize Energy Consumption in IoT Devices
- What's making smart cities and homes even smarter?
- PUFsecurity, a subsidiary of eMemory, Achieves NIST CAVP Certification for PQC Algorithms, Launches PUFpqc Architecture for Quantum-Resilient SoCs (Jul. 08, 2025)
- GlobalFoundries to Acquire MIPS to Accelerate AI and Compute Capabilities (Jul. 08, 2025)
- Menta Licenses Menta Embedded FPGA Programmable IP To Renesas For Its ForgeFPGA Product Line (Jul. 07, 2025)
- Samsung delays 1.4nm node, doubles down on 2nm process enhancement (Jul. 04, 2025)
- TSMC to exit gallium nitride semiconductor business in two years (Jul. 04, 2025)
- See Latest News>>
The novel semiconductor technology is emerging as a key enabler for AI-driven IoT applications
aibusiness.com, Nov. 25, 2024 –
The convergence of artificial intelligence (AI) and the Internet of Things (IoT) is revolutionizing the technology landscape. Fully depleted silicon on insulator (FD-SOI) technology, a semiconductor fabrication process, is emerging as a key enabler for AI-driven IoT applications due to its unique power efficiency, performance, thermal management and reliability advantages.
Reducing Power Consumption and Enabling Faster Data Processing
One of the most significant benefits of FD-SOI technology is its ability to substantially reduce power consumption. This is achieved through a thin insulating layer that minimizes leakage currents, making FD-SOI particularly suitable for IoT devices that often rely on battery power or energy harvesting. The reduced leakage current is crucial for extending the battery life of mobile and wearable IoT devices, ensuring they can operate for extended periods without frequent recharging.
Additionally, FD-SOI supports dynamic voltage and frequency scaling (DVFS), which allows AI IoT devices to dynamically adjust their power usage based on the workload. This capability ensures that devices can operate efficiently under varying conditions, conserving energy during low-demand periods and ramping up performance when needed. FD-SOI technology excels in supporting ultra-low power modes, making it ideal for IoT applications that require long periods of standby operation with occasional active periods. Examples include remote sensors and wearable devices, which need to be energy-efficient to function effectively over long durations.
Back
Contact Us
Partnership Offers