Network-on-Chips Enabling Artificial Intelligence/Machine Learning Everywhere


Recently, I attended the AI HW Summit in Santa Clara and Autosens in Brussels. Artificial intelligence and machine learning (AI/ML) were critical themes for both events, albeit from different angles. While AI/ML as a buzzword is very popular these days in all its good and bad ways, in discussions with customers and prospects, it became clear that we need to be precise in defining what type of A... » read more

Design Complexity In The Golden Age Of Semiconductors


While writing last month's blog that used some of the trend charts we have seen, I noticed that a lot of the data ends in 2020 or earlier, but I was too close to the deadline to sit down and make orderly updates to some of the charts. Working day-to-day in the area of SoC integration and networks-on-chips (NoCs), the classic chart based on Karl Rupp's now 50 years of processor data that overlay... » read more

NoC Obfuscation For Protecting Against Reverse Engineering Attacks (U. Of Florida)


A technical paper titled "ObNoCs: Protecting Network-on-Chip Fabrics Against Reverse-Engineering Attacks" was published by researchers at University of Florida. Abstract: "Modern System-on-Chip designs typically use Network-on-Chip (NoC) fabrics to implement coordination among integrated hardware blocks. An important class of security vulnerabilities involves a rogue foundry reverse-engineeri... » read more

Megatrends At DAC


Spotting key trends over three days of a semiconductor design conference is a challenge, but some important ones come into focus after attending multiple sessions — AI/ML, chiplet integration, and heterogeneous integration in an SoC and package. Frank Schirrmeister, vice president solutions and business development at Arteris IP, talks about a variety of topics that fit under the DAC umbrella... » read more

Holistic Power Reduction


The power consumption of a device is influenced by every stage of the design, development, and implementation process, but identifying opportunities to save power no longer can be just about making hardware more efficient. Tools and methodologies are in place for most of the power-saving opportunities, from RTL down through implementation, and portions of the semiconductor industry already a... » read more

The Architect’s Dilemma And Closing The Loop With Implementation


Gordon Moore has left a mark on our industry. Moore's Law has shaped decades of development. The EDA industry has been moving up the layers of abstraction to increase the productivity and predictability of design flows in our efforts to address the ever-increasing complexity of semiconductors and electronics developments. I had written about it in "Chasing The Next Level Of Productivity" not lo... » read more

Physically Aware NoCs


More functions, greater security risks, and increasingly complicated integration of IP and various components below 7nm is increasing the time and effort it takes to get a functioning chip out the door. In many of these devices, the network on chip is the glue between various components, but it can take up to 10% to 12% of the total area of the SoC. Andy Nightingale, vice president of product m... » read more

The Game Of Ecosystems Intensifies


You may know about my fascination with ecosystems if you have followed my writing. It is only fitting that I am writing this Blog in Munich (shiver, it's cold), where I attended the GSA McKinsey workshop on "Distributed E/E Architectures and Zonal Computing." This workshop had attendees from semiconductor foundries, EDA vendors, IP vendors, Tier 1 Semis, Tier 2 Integrators, software vendors, an... » read more

Considering Semiconductor Implementation Aspects Early During Network-on-Chip Development


As they say, while history may not repeat itself, it sure rhymes. In 2015, I wrote the blog "Why Implementation Matters To System Design And Software." At the time, I mused that while abstraction is essential in system design, it has limitations that users must consider. Critical decisions, such as those regarding power and performance, require more accuracy than can be feasibly abstracted. ... » read more

What Does 2023 Have In Store For Chip Design?


Predictions seem to be easier to make during times of stability, but they are no more correct than at any other period. During more turbulent times, fewer people are courageous enough to allow their opinions to be heard. And yet it is often those views that are more well thought through, and even if they turn out not to be true, they often contain some very enlightening ideas. 2022 saw some ... » read more

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