The concept and use of virtual prototypes continues to grow each year in electronics design, mostly because it really does shorten product development cycles by allowing software engineers to start early debug and fix errors prior to production. Other useful benefits to virtual prototyping include software optimization, … Read More
Reimagining Compute in the Age of Dispersed IntelligenceAt the 2025 RISC-V Summit, amid debates over…Read More
Siemens to Deliver Industry-Leading PCB Test Engineering SolutionsSiemens has strengthened its position in EDA and…Read More
Agentic EDA Panel Review Suggests Promise and Near-Term GuidanceNetApp recently hosted a webinar on Agentic AI…Read More
Hardware is the Center of the Universe (Again)The 40-Year Evolution of Hardware-Assisted Verification — From…Read More
Smarter ECOs: Inside Easy-Logic’s ASIC Optimization EngineEasy-Logic Technology Ltd. is a specialized Electronic Design…Read More
Virtual Fabrication: Not just for fabs. Fabless companies can benefit from more visibility into process technology
Ever since I started talking about Virtual Fabrication I have mostly looked at it from the manufacturers’ perspective, where it has obvious benefits to develop and model new process technology. But what about the fabless design concept and indeed even the semiconductor IP world that has spawned from it as well? It seems that Virtual… Read More
Full-Custom Low Power Design Methodology
Digital designers have used logic optimization and logic synthesis for decades as a means to produce more optimal designs with EDA tools. On the analog and transistor-level side of design the efforts to automatically optimize for speed or power have generally been limited to circuits with only a handful of transistors. These … Read More
Atrenta @ #51DAC Must See!
Last year at DAC, we launched the RTL Signoff platform and our customers responded enthusiastically. We even had a few other EDA companies follow our lead. So what have we been up to since then?
Visit us at DAC this June and learn how we have expanded our industry leading RTL Signoff solutions to handle the next set of challenges in SoC… Read More
Intel’s SoC Challenge!
Innovation is the cornerstone of the semiconductor industry and as history has shown, the majority of semiconductor innovation has come from fabless companies. Apple computer is my favorite example since they went from selling mother boards to computer hobbyists in the 1970’s to being one of the largest and most influential … Read More
A Collaborative Approach Yields Better PI for PCBs
The power integrity (PI) of a system is an extremely important aspect to be looked at all levels – chip, package and PCB for overall reliability of the system. At the PCB level, a DC analysis, usually based on IR drop, must ensure that adequate DC voltage, satisfying all constraints of current density and temperature, is delivered… Read More
Intel’s Manufacturing Lead Explained
The calls from Wall Street keep coming with basically the same set of questions: “Does Intel really have a 2-3 year process lead? Can Intel lead the foundry segment? Can Intel Lead the Mobile SoC Segment?” The feeling amongst the buy and sell side investment people is that unless Intel can lead a market they will not stay in it… Read More
Secret to Beating Your FPGA Competitor’s Design
Can I ask you a personal question dear reader? It is only fair, you know so much about me and all, so here goes… Why are you still hand coding you’re FPGA design? Surely you are not hand coding interfaces, like PCie, SRIO, DDR, GbE, JESD204B, HMC etc… Correct? OK, why then are you still hand coding the guts of the world’s best, super-duper… Read More
Low Power Design
So you want to do a low power design. Join the club. Who doesn’t? Today all designs are low power, it is the biggest constraint on what we can do on a chip. Power down; power domains, variable clock rates, mixed Vt libraries. Every trick is needed. And that is not even enough. We get to put our phones on charge each evening and there… Read More
Calypto @ #51DAC Must See!
DAC 2014 in San Francisco promises plenty of new information on emerging low power techniques and faster ways to get to working, fully verified RTL using high level synthesis and formal verification. Get the latest from the industry leader in technologies for high level design and verification and low power RTL designby attending… Read More
Advancing Automotive Memory: Development of an 8nm 128Mb Embedded STT-MRAM with Sub-ppm Reliability