Week In Review: Design, Low Power


Memory CEA-Leti demonstrated 16-kbit ferroelectric random-access memory (FeRAM) arrays at the 130nm node. It utilizes back-end-of-line (BEOL) integration of TiN/HfO2:Si/TiN ferroelectric capacitors as small as 0.16 µm² and solder reflow compatibility for the first time for this type of memory. The researchers anticipate it will be useful for embedded applications such at IoT and wearable dev... » read more

Week In Review: Auto, Security, Pervasive Computing


Automotive Features of Toyota’s key fobs for entering vehicles get turned off when drivers do not start paying a subscription fee when the complementary subscriptions end, says an article in Ars Technica. SiLC Technologies announced its compact Eyeonic Vision Sensor, a FMCW lidar sensor, is now commercially available. The sensor has a silicon photonic chip that keeps a lidar’s size down... » read more

Blog Review: Dec. 15


Arm's Hannah Peeler, Joshua Randall, and Zach Lasiuk examine the carbon cost of data centers and introduce a tool that allows users to make informed decisions about the carbon impact of their compute workloads. Synopsys' Kenneth Larsen provides a primer on the fundamentals of quantum computing, the role of photonics in building quantum systems, and the future potential impact on chip design.... » read more

The Return Of DAC In-Person


Apart from masked faces everywhere, you could be excused for not knowing that there was a pandemic going on. Sure, the numbers were down, the show floor was smaller, and most of the parties didn't happen, but everyone was so happy to be able to bump elbows with their colleagues. Buttons were available for attendees to show the level of comfort they had with various types of greetings, from "... » read more

Can Coherent Optics Reduce Data-Center Power?


As optical bandwidth requirements increase, system designers are turning to “coherent” modulation schemes that can place more data on the same laser light, and lower power over long connections. A newer question is whether those savings could be achieved for short connections within data centers, as well. “Coherent is the direction everything's moving, because for a given system and... » read more

Innovations In Sensor Technology


Sensors are the “eyes” and “ears” of processors, co-processors, and computing modules. They come in all shapes, forms, and functions, and they are being deployed in a rapidly growing number of applications — from edge computing and IoT, to smart cities, smart manufacturing, hospitals, industrial, machine learning, and automotive. Each of these use cases relies on chips to capture d... » read more

Run Realistic Software For Full Chip Power Signoff


In the real world, the demand for AI chips is driving the trend towards bigger, smarter, and faster SoC designs. Consequently, low-power design, analysis, verification, and power signoff challenges are not getting any easier as chip designs deploy increasingly smaller geometries that dissipate more and more power. Despite this dilemma, the quest for further power reductions continues apace. ... » read more

Big Changes Ahead For Inside Auto Cabins


The space we occupy inside our vehicles is poised to change from mere enclosure to participant in the driving experience. Whether for safety or for comfort, a wide range of sensors are likely to appear that will monitor the “contents” of the vehicle. The overall approach is referred to as an in-cabin monitoring system (ICMS), but the specific applications vary widely. “In-cabin sensing... » read more

Blog Review: Dec. 8


Arm's Shidhartha Das introduces a method to achieve fast yet accurate power modelling for both design and runtime power introspection within the same unified framework using machine learning and data science approaches. Synopsys' Mike Borza warns that the semiconductor industry is facing a flood of counterfeit chips and why being aware of different types of semiconductor scams and tackling t... » read more

Scaling Processor Performance And Safety To Meet Requirements For Next-Generation Safety-Critical Automotive Designs


This white paper proposes a state-of-the-art processor architecture targeting automotive safety systems that meets the requirements of such active safety systems delivering the required processing performance, providing the highest automotive safety integrity level (ASIL) while also significantly contributing to a reduction in overall cost of the systems through the use of artificial neural net... » read more

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