AbstractLatency Insensitive Protocols (LIP) and Elastic Circuits (EC) solve the same problem of rendering a design tolerant to additional latencies caused by wires or computational elements. They are performance-limited by a firing semantics that enforces coherency through a lazy evaluation rule: Computation is enabled if all inputs to a block are simultaneously available. Adaptive LIP's (ALIP) and EC with early evaluation (ECEE) increase the performance by relaxing the evaluation rule: Computation is enabled as soon as the subset of inputs needed at a given time is available. Their difference in terms of implementation and behavior in selected cases justifies the need for the comparative analysis reported in this paper. Results have been o...
AbstractLatency insensitive protocols (LIPs) have been proposed as a viable means to connect synchro...
Abstract. The theory of latency insensitive design is presented as the foundation of a new correct b...
Asynchronous and latency-insensitive circuits offer a similar form of elasticity that tolerates vari...
A protocol for latency-insensitive design with early evalua-tion is presented. The protocol is based...
Latency-insensitive design copes with excessive delays typical of global wires in current and future...
Elasticity in circuits and systems provides tolerance to variations in computation and communication...
International audienceSynchronous Elasticization converts an ordinary clocked circuit into Latency-I...
Elastic systems provide tolerance to the variations in computation and communication delays. The inc...
Abstract — A simple protocol for latency-insensitive design is presented. The main features of the p...
The latency insensitive protocols (LIP), which are designed to improve the performance of systems-on...
AbstractThis paper reports on the design of a test chip built to test a) a new latency insensitive n...
A simple protocol for latency-insensitive design is presented. The main features of the protocol are...
With the arrival of nanometer technologies wire delays are no longer negligible with respect to gate...
Best Paper Award, Ninth International Conference on Application of Concurrency to System Design.Asyn...
We formally define - at the stream transformer level - a class of synchronous circuits that tolerate...
AbstractLatency insensitive protocols (LIPs) have been proposed as a viable means to connect synchro...
Abstract. The theory of latency insensitive design is presented as the foundation of a new correct b...
Asynchronous and latency-insensitive circuits offer a similar form of elasticity that tolerates vari...
A protocol for latency-insensitive design with early evalua-tion is presented. The protocol is based...
Latency-insensitive design copes with excessive delays typical of global wires in current and future...
Elasticity in circuits and systems provides tolerance to variations in computation and communication...
International audienceSynchronous Elasticization converts an ordinary clocked circuit into Latency-I...
Elastic systems provide tolerance to the variations in computation and communication delays. The inc...
Abstract — A simple protocol for latency-insensitive design is presented. The main features of the p...
The latency insensitive protocols (LIP), which are designed to improve the performance of systems-on...
AbstractThis paper reports on the design of a test chip built to test a) a new latency insensitive n...
A simple protocol for latency-insensitive design is presented. The main features of the protocol are...
With the arrival of nanometer technologies wire delays are no longer negligible with respect to gate...
Best Paper Award, Ninth International Conference on Application of Concurrency to System Design.Asyn...
We formally define - at the stream transformer level - a class of synchronous circuits that tolerate...
AbstractLatency insensitive protocols (LIPs) have been proposed as a viable means to connect synchro...
Abstract. The theory of latency insensitive design is presented as the foundation of a new correct b...
Asynchronous and latency-insensitive circuits offer a similar form of elasticity that tolerates vari...