The Future of Embedded Chip Design Navigating the Chip Creation Space
Circuit Cellar|December 2024
Custom Silicon at Lower Cost, Reduced Development Time
Michael Wishart
The Future of Embedded Chip Design Navigating the Chip Creation Space

Empowering a new generation of developers to create more specialized, efficient and innovative chips opens paths for smaller enterprises to take on the challenges of machine learning, IoT, artificial intelligence and automation.

The proliferation of embedded systems has reshaped industries by providing intelligence to products, thereby improving ease of use, functionality and life cycle cost. Historically, embedded systems providers could meet most customers' requirements using standard, off-the-shelf components, providing differentiation through software. In certain cases, the embedded systems had particularly demanding performance, cost, or power requirements (or some combination of all three) and required tailored hardware in the form of customizable silicon solutions, most notably FPGAs or custom silicon such as ASICS.

We are now moving to the next generation of embedded systems, one powered by machine learning (ML). These new ML-enabled systems are expanding the applications served and the value that microelectronics provide in traditional embedded markets.

Importantly, they also bring the power of embedded intelligence to a wide array of existing and new consumer markets. In this new world, the benefit of tailored hardware becomes more broadly relevant, often making the difference between products that serve a market's needs and those that do not.

As such, enabling simple, fast and affordable customizing of chips has emerged as a critical differentiator among OEM's, software and service providers. Once again, FPGAs are one choice. They are relatively easy to implement by non-chip experts but are not energy efficient and do not integrate the extensive analog functionality necessary for cost-sensitive or sensor driven applications.

Alternatively, ASICS give engineers a wide

This story is from the December 2024 edition of Circuit Cellar.

Start your 7-day Magzter GOLD free trial to access thousands of curated premium stories, and 9,000+ magazines and newspapers.

This story is from the December 2024 edition of Circuit Cellar.

Start your 7-day Magzter GOLD free trial to access thousands of curated premium stories, and 9,000+ magazines and newspapers.

MORE STORIES FROM CIRCUIT CELLARView All
New TI MCUs Enable Edge AI and Industry-Leading Real-Time Control to Advance Efficiency, Safety, and Sustainability
Circuit Cellar

New TI MCUs Enable Edge AI and Industry-Leading Real-Time Control to Advance Efficiency, Safety, and Sustainability

Texas Instruments (TI) introduced two new series of real-time microcontrollers that deliver advancements to help engineers achieve more intelligent and secure processing in automotive and industrial applications.

time-read
1 min  |
January 2025
Using Amazon Alexa to Control Custom IoT Gadgets
Circuit Cellar

Using Amazon Alexa to Control Custom IoT Gadgets

In part two of his article, Brian describes integrating custom IoT gadgets with Amazon Echo using emulation to receive spoken alarms. In part one, he used emulation and Arduino Cloud services as a middleman.

time-read
10+ mins  |
January 2025
Holiday Hangover Hardware Hacking
Circuit Cellar

Holiday Hangover Hardware Hacking

Having too much cheer during the holidays? In this month's article, Colin offers a diversion from the jolly season by urging developers to retreat to the basement to brush up on hardware hacking skills. He shows how a low-cost Raspberry Pi Pico and a TP-Link Tapo C200 smart IP camera could become the next automated bird deterrent or a home automation server.

time-read
8 mins  |
January 2025
Datasheet: Microamps Per Megahertz Ultra-Low Power MCUs Minimize Current Consumption
Circuit Cellar

Datasheet: Microamps Per Megahertz Ultra-Low Power MCUs Minimize Current Consumption

How do chip makers differentiate if many ultra-low power MCUs on the market feature the same processor core? The peripherals and different power states offer various ways to manage current consumption down to microamps per megahertz.

time-read
2 mins  |
January 2025
Smart Home Lock Down Matter Provides Security Blanket
Circuit Cellar

Smart Home Lock Down Matter Provides Security Blanket

As more devices in the smart home connect to the Internet, they become increasingly vulnerable to outside attacks. Developers can now add the latest security measures to their Smart Home devices through Matter.

time-read
10+ mins  |
January 2025
Basic Pulse Circuits
Circuit Cellar

Basic Pulse Circuits

In part one of a three-part series, Wolfgang wrote how basic pulse circuits help digital circuits, such as embedded boards with ARM processors, deal with pulse trains or bursts of pulses from the outside. In Part 2, he dives into enabling flip-flops, timing parameters, and synchronization, design tasks needed to capture, detect, and filter pulses.

time-read
10+ mins  |
January 2025
Building a Wi-Fi Router Watchdog
Circuit Cellar

Building a Wi-Fi Router Watchdog

Dev created a watchdog for a Wi-Fi extender using a Raspberry Pi Pico. This monitors Wi-Fi connectivity for his smart home lighting system, which would require a reset twice a year due to rapid power interruptions.

time-read
8 mins  |
January 2025
Create Your Own PCBs with a CNC Milling Machine
Circuit Cellar

Create Your Own PCBs with a CNC Milling Machine

Using KiCad, CopperCAM, and Candle Software

time-read
10+ mins  |
January 2025
Performance Bottlenecks in Embedded Linux Solutions Analysis, Identification, and Mitigation
Circuit Cellar

Performance Bottlenecks in Embedded Linux Solutions Analysis, Identification, and Mitigation

Good performance is a requirement for every technology, and system designers rely on operating systems to ensure fast and smooth transitions in critical applications. Fortunately, Pedro writes, the embedded Linux OS offers ways for finding, analyzing and mitigating performance bottlenecks so embedded systems can deliver the speed and efficiency that end users expect.

time-read
10+ mins  |
January 2025
Renesas New RA8 Entry-Line MCU Groups Brings High Performance of Arm Cortex-M85 Processor to Cost-Sensitive Applications with Market-Leading CoreMark Performance
Circuit Cellar

Renesas New RA8 Entry-Line MCU Groups Brings High Performance of Arm Cortex-M85 Processor to Cost-Sensitive Applications with Market-Leading CoreMark Performance

Renesas Electronics Corp., a premier supplier of advanced semiconductor solutions, introduced the RA8E1 and RA8E2 microcontroller (MCU) groups, extending the industry's most powerful series of MCUs.

time-read
1 min  |
December 2024