FONT SIZE : AAA
It has become crucial for effective design of integrated systems, whether on a macro- or microscopic scale, to accurately predict the behavior of such systems prior to manufacture. Whether it is ensuring that sensors or actuators operate correctly, or integrated components such as magnetics also operate correctly, or analyzing the effect of parasitics and non-ideal effects such as temperature, losses, and nonlinearities, the requirement for multiple-domain modeling has never been greater.
Now languages such as VHDL-AMS and Verilog-AMS offer an effective and efficient route for engineers to describe these systems and effects, with the added benefit of standardization leading to interoperability and model exchange. The challenge for the EDA industry is to provide adequate simulation and particularly modeling tools to support engineering design.
The opportunity for FPGA designers is to take advantage of this huge advance in modeling technology and use it to make sure that digital controllers and designs can operate effectively and robustly in real-world applications.
Manufacturer:Xilinx
Product Categories: FPGAs (Field Programmable Gate Array)
Lifecycle:Active Active
RoHS:
Manufacturer:Xilinx
Product Categories: FPGAs (Field Programmable Gate Array)
Lifecycle:Active Active
RoHS: No RoHS
Manufacturer:Xilinx
Product Categories: Commutateurs analogiques
Lifecycle:Obsolete -
RoHS: -
Manufacturer:Xilinx
Product Categories:
Lifecycle:Obsolete -
RoHS: -
Manufacturer:Xilinx
Product Categories: Connecteurs
Lifecycle:Obsolete -
RoHS:
Support
