Today's FPGAs are large--really large. The largest are closing in on 200,000 logic elements and include features like memories, analog phase-locked loops, transceivers, and more. Yet that complexity ...

With so many available processor design options design teams must make the difficult decision to choose the solution that best fits their specific project requirements, while supporting extended ...

This course will give you the foundation for FPGA design in Embedded Systems. You will learn what an FPGA is and how this technology was developed, how to select the best FPGA architecture for a given ...

Power consumption requirements in new autonomous, multimedia-savvy consumer products that can store, transmit, and receive data have catapulted system architects and board and chip designers into a ...

Cofer and Harding discuss how to implement DSP functionality, covering when FPGAs are a good fit for DSP algorithm implementation and important design decisions and considerations. Each of these ...

As contributors and pioneers in the digital revolution, we are often so busy creating and innovating that we are compelled to focus on the trees, never mind the forest. But as we are all aware, the ...

As DSP technologies find their way into high-end, high-complexity commercial and consumer applications, developers are discovering the limitations of traditional Digital Signal Processors (DSPs) to ...

This course will give you the foundation for using Hardware Description Languages, specifically VHDL and Verilog for Logic Design. You will learn the history of both VHDL and Verilog and how to use ...

The key part of the FPGA design is to determine the voltage requirements needed and the current requirements of each voltage rail. The major FPGA vendors offer comprehensive calculators that take into ...

You see them at almost every user seminar or industry trade show workshop: the Methodology Managers from XYZ Corporation, who describe the system they use to help the company make sense of the ...