When software is required to solve complex problems, the proper solutions are often beyond the capabilities of traditional programming techniques. A robust alternative for solving very complex ...

Finite State Machines (FSMs) serve as a foundational model for representing the behaviour of systems that transition between discrete states in response to inputs. Their applicability ranges from ...

Finite State Machines (FSMs) have long been a cornerstone of digital system design, and continuing advancements in logic synthesis have enabled increasingly optimised implementations. At its core, FSM ...

As design size and complexity grows, the design verification effort grows even more. It takes significant amount of time to thoroughly verify complex control logic of a design, which is the key and ...

Well, summer has been and gone; and for most of us it was a time to relax and reflect on our working practices. What can we do to achieve better results? And what can we do to break out of the routine ...

In my previous article, I highlighted the importance of state machine thinking in creating robust and dependable systems. Now, let's delve deeper into the mathematical underpinnings of converting ...

The need for a way to execute concurrent tasks within Java has been addressed within JSE by the java.util.concurrent.Executor and in a limited fashion in JEE by the WorkManager specification.

Designing a synchronous finite state machine (FSM) is a common task for a digital logic engineer. This paper discusses a variety of issues regarding FSM design using Verilog and VHDL coding styles.