We formally define - at the stream transformer level - a class of synchronous circuits that tolerate any variability in the latency of their environment. We study behavioral properties of networks of such circuits and prove fundamental compositionality results. The paper contributes to bridging the gap between the theory of latency-insensitive systems and the correct implementation of efficient control structures for them.Peer ReviewedPostprint (published version
Digital electronic systems typically use synchronous clocks and primarily assume fixed duration of t...
Asynchronous and latency-insensitive circuits offer a similar form of elasticity that tolerates vari...
A protocol for latency-insensitive design with early evaluation and its implementation is presented....
We formally define - at the stream transformer level - a class of synchronous circuits that tolerate...
Elasticity in circuits and systems provides tolerance to variations in computation and communication...
A simple protocol for latency-insensitive design is presented. The main features of the protocol are...
Elastic systems provide tolerance to the variations in computation and communication delays. The inc...
Best Paper Award, Ninth International Conference on Application of Concurrency to System Design.Asyn...
An elastic circuit can take an arbitrarily long time to compute its results and it can wait arbitrar...
This paper describes an implementation language and synthesis system for automatically generating la...
dissertationElasticity is a design paradigm in which circuits can tolerate arbitrary latency/delay v...
Abstract. Synchronous Elasticization converts an ordinary clocked circuit into Latency-Insensitive (...
AbstractThis paper reports on the design of a test chip built to test a) a new latency insensitive n...
Asynchronous and latency-insensitive circuits offer a similar form of elasticity that tolerates vari...
Journal ArticleIn this paper we examine a latency insensitive net- work composed of very fast and s...
Digital electronic systems typically use synchronous clocks and primarily assume fixed duration of t...
Asynchronous and latency-insensitive circuits offer a similar form of elasticity that tolerates vari...
A protocol for latency-insensitive design with early evaluation and its implementation is presented....
We formally define - at the stream transformer level - a class of synchronous circuits that tolerate...
Elasticity in circuits and systems provides tolerance to variations in computation and communication...
A simple protocol for latency-insensitive design is presented. The main features of the protocol are...
Elastic systems provide tolerance to the variations in computation and communication delays. The inc...
Best Paper Award, Ninth International Conference on Application of Concurrency to System Design.Asyn...
An elastic circuit can take an arbitrarily long time to compute its results and it can wait arbitrar...
This paper describes an implementation language and synthesis system for automatically generating la...
dissertationElasticity is a design paradigm in which circuits can tolerate arbitrary latency/delay v...
Abstract. Synchronous Elasticization converts an ordinary clocked circuit into Latency-Insensitive (...
AbstractThis paper reports on the design of a test chip built to test a) a new latency insensitive n...
Asynchronous and latency-insensitive circuits offer a similar form of elasticity that tolerates vari...
Journal ArticleIn this paper we examine a latency insensitive net- work composed of very fast and s...
Digital electronic systems typically use synchronous clocks and primarily assume fixed duration of t...
Asynchronous and latency-insensitive circuits offer a similar form of elasticity that tolerates vari...
A protocol for latency-insensitive design with early evaluation and its implementation is presented....