Doc Formal sets out the 10 cost points in verification that formal will help you control and reduce.
Effective formal verification demands striking a careful balance in the use of constraints – too many slows things down, but too few may let bugs slip through.
Choosing the right crypto processor implementation involves a complex set of design tradeoffs between speed, area, power consumption and flexibility. Using consistent benchmarks can help explore your options.
Andy Ladd highlights the wide range of peak-power concerns around plugged-in devices.
An introduction to how virtual emulation has fueled the application of co-modeling for complex design verification.
Many car manufacturers are exploring the possibilities of autonomous vehicles. But what will it take to build sufficient AI performance into them to enable true autonomy?
Ashish Darbari describes a formal technique that fuels a rapid, predictable and highly effective methodology.
Lauro Rizzatti gets a reality check on AI for both design tools and designs themselves from the formal verification specialist.
Artificial intelligence and machine learning require the performance and flexibility offered by embedded FPGA (eFPGA) technology.
Insights from research into reliability at Imec led to self-learning chips, security technologies, and finFET biosensors.
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