Synthesis of asynchronous circuits from Signal Transition Graphs (STGs) and/or State Graphs (SGs) involves solving state coding problems. A well-known example of such problems is that of Complete State Coding (CSC), which happens when a pair of different states in an SG has the same binary encoding. A standard way to approach state coding conflicts is to add new state signals into the original specification in such a way that the original behaviour remains intact. Existing methods have not yet been able to provide such theoretical foundation for event insertion, that could yield efficient practical results when applied to large models. This paper aims at presenting such a general framework, which is based on two fundamental concepts. One is...
AbstractSTGs (Signal Transition Graphs) give a formalism for the description of asynchronous circuit...
Asynchronous circuits can be modeled as concurrent systems in which events are interpreted as signal...
This paper presents a novel technique for synthesis of speed-independent circuits. It is based on pa...
Synthesis of asynchronous circuits from Signal Transition Graphs (STGs) and/or State Graphs (SGs) in...
State assignment problems still need satisfactory solutions to make asynchronous circuit synthesis m...
This paper proposes a state encoding method for asynchronous circuits based on the theory of regions...
State encoding is one of the fundamental problems in the synthesis of asynchronous controllers. The ...
This paper proposes a state encoding method for asynchronous circuits based on the theory of regions...
Current algorithms to force the complete state coding (CSC) property for signal transition graphs wo...
State encoding is one of the most difficult problems in the synthesis of asynchronous controllers. T...
Methods for the synthesis of asynchronous circuits from Signal Transition Graphs (STGs) have commonl...
Signal Transition Graphs (STGs) are a popular formalism for the specification of asynchronous circui...
Methods for the synthesis of asynchronous circuits from signal transition graphs (STGs) have commonl...
Signal Transition Graphs (STGs) are a popular formalism for the specification of asynchronous circui...
State coding conflict detection is a fundamental part of synthesis of asynchronous concurrent system...
AbstractSTGs (Signal Transition Graphs) give a formalism for the description of asynchronous circuit...
Asynchronous circuits can be modeled as concurrent systems in which events are interpreted as signal...
This paper presents a novel technique for synthesis of speed-independent circuits. It is based on pa...
Synthesis of asynchronous circuits from Signal Transition Graphs (STGs) and/or State Graphs (SGs) in...
State assignment problems still need satisfactory solutions to make asynchronous circuit synthesis m...
This paper proposes a state encoding method for asynchronous circuits based on the theory of regions...
State encoding is one of the fundamental problems in the synthesis of asynchronous controllers. The ...
This paper proposes a state encoding method for asynchronous circuits based on the theory of regions...
Current algorithms to force the complete state coding (CSC) property for signal transition graphs wo...
State encoding is one of the most difficult problems in the synthesis of asynchronous controllers. T...
Methods for the synthesis of asynchronous circuits from Signal Transition Graphs (STGs) have commonl...
Signal Transition Graphs (STGs) are a popular formalism for the specification of asynchronous circui...
Methods for the synthesis of asynchronous circuits from signal transition graphs (STGs) have commonl...
Signal Transition Graphs (STGs) are a popular formalism for the specification of asynchronous circui...
State coding conflict detection is a fundamental part of synthesis of asynchronous concurrent system...
AbstractSTGs (Signal Transition Graphs) give a formalism for the description of asynchronous circuit...
Asynchronous circuits can be modeled as concurrent systems in which events are interpreted as signal...
This paper presents a novel technique for synthesis of speed-independent circuits. It is based on pa...