To meet low-power and high-performance requirements, system on chip (SoC) designs are equipped with several asynchronous and soft reset signals. These reset signals help to safeguard software and ...
One interesting topic of discussion is whether to use synchronous or asynchronous reset in design. In synchronous reset design, we use reset signal in the D path of flop. Hence, the assertion of reset ...
As the complexity of system-on-chip (SoC) designs escalates, driven by the demand for more integrated functionalities and higher performance, electronic components such as processors, power management ...
Modern SoCs are equipped with complex reset architectures to meet the requirements of high-speed interfaces with increased functionality. These complex reset architectures with multiple reset domains, ...
Metastability in design due to asynchronous clock domain crossing (CDC) is a well known problem. Industry standard advanced tools are available to catch such structural or functional issues in design.
Many aspects of system-on-chip (SoC) designs are growing, including the numbers of gates, memories, clock domains, reset domains, power domains, on-chip buses, and external interfaces. A recent blog ...
In an environment where chip-design risks have ballooned to worrying levels, a verification methodology based on just linting and simulation does not cut it. Identifying specific sources of ...
Lack of coordination between asynchronous resets and synchronous logic clocks leads to intermittent failures on power up. In this series of articles, we discuss the requirements and challenges of ...
Lack of coordination between asynchronous resets and synchronous logic clocks leads to intermittent failures on power up. In this series of articles, we discuss the requirements and challenges of ...