Getting into FPGA design isn’t a monolithic experience. You have to figure out a toolchain, learn how to think in hardware during the design, and translate that into working Verliog. The end goal is ...

Classic battles: PC vs Mac, Emacs vs Vi, Tastes Great vs Less Filling, and certainly one that we debate around the Hackaday watercooler: command line or IDE? There’s something to be said for using ...

Learn how a free tool lets you build and test digital circuits on your computer and see how chips really work before making ...

This online engineering specialization will help you gain proficiency in creating prototypes or products for a variety of applications using Field Programmable Gate Arrays (FPGAs). You will cover a ...

A priority interrupt controller is a hardware designed chip which acts as an overall system manager to efficiently handle the multiple interrupts that tend to occur from the varied number of ...

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 ...

With the increasing size and complexity of FPGA devices, there is a need for more efficient verification methods. Timing simulation can be the most revealing verification method; however, it is often ...

Over 81% of new digital designs utilize Field Programmable Gate Arrays (FPGAs). With FPGA packages exceeding 1,000 pins, with Ball Grid Array (BGA) solder bumps providing the interconnect, it is ...

A field-programmable gate array (FPGA), which consists of memory, programmable logic gates, and other components, is generally involved in digital-circuit design. FPGA settings are typically defined ...