How different components of your chip talk to each other| chipinsights.substack.com
The computer engineering version of “kids, back in our time…”| chipinsights.substack.com
The non-technical aspects that no one talks about| chipinsights.substack.com
All about STA, from the horse's mouth| chipinsights.substack.com
It's not Moore's Law. It's not Huang's Law.| chipinsights.substack.com
All you need to know about power as a chip designer| Chip Insights
How VHDL and Verilog evolved into to their current form| Chip Insights
A story of research, innovation, and collaboration| Chip Insights
Interview resources entry level Design/DV/Architecture roles| Chip Insights
A case study in computer architecture| Chip Insights
In part 1 of the Caches Deep Dive series, I covered some basic concepts in designing a cache.| Chip Insights
When you look at CPU specs, one of the first things you would see is what's called "bitness" - 8 bit, 16 bit, 32 bit or 64 bit CPUs.| Chip Insights
In EDA Deep Dive - part 1, I covered the rise of commercial EDA - with Cadence and Synopsys emerging as the big winners.| Chip Insights
If you have even remotely followed the processor industry, you would have heard about "ARM vs x86".| Chip Insights
Every college course on computing, starts with Moore’s law.| chipinsights.substack.com
In my previous posts about VLSI EDA (Part 1, Part 2), I covered the history of EDA tools, and how open-source EDA is attempting to mimic the advantages of software engineering to the chip industry.| chipinsights.substack.com
The role of Electronic Design Automation (EDA) in the evolution of the semiconductor industry is often underplayed.| chipinsights.substack.com
What are chip design teams going to look like in the future?| chipinsights.substack.com
