Your circuit can contain simple logic elements like gates and flip-flops, or complex functions limited only by the FPGA's capacity – state machines and highly complex sub-systems can be entered too.

This course studies synchronous sequential circuits and register transfer logic. Latches and flip-flops. Registers. Counters. Analysis and design of synchronous sequential circuits. Moore model and ...

Internal blanking logic prevents spurious transitions ... depending on the mains. The secondary circuit's synchronous rectifiers are two 10.5- mΩ MOSFETs in TO-220 packages.

A synchronous computer has been developed that ... Give us any Boolean logic circuit in the world, and we can build it with these little magnetic droplets moving around." The current paper ...

They show you all possible circuit styles, even though commercial tools don’t support many of them. They have decided that there’s a particular style of synchronous logic that works well. They know ...

One major reason for this is that the entire device is normally designed as a single synchronous circuit. By using asynchronous logic many of these problems can be resolved. System-on-chip designs try ...

Much of today’s logic design is based on two major assumptions ... design is that it removes the clock skew problem inherent in synchronous designs since asynchronous circuits by definition have no ...

“Static” in this case refers to when a change to an input of a logic circuit gives an unexpected output until the circuit stabilizes. The circuit shown is pretty simple, with three inputs ...

Here we present a platform for error-free physical computation via synchronous universal logic. Our platform uses a rotating magnetic field that enables parallel manipulation of arbitrary numbers ...