Add to ORKGAbstract. Synchronous Elasticization converts an ordinary clocked circuit into Latency-Insensitive (LI) design. The Synchronous Elastic Flow (SELF) is an LI protocol that can be implemented with eager or lazy evaluation in the data steering network. Compared to lazy implementations, eager SELF designs have no combinational cycles and can have a performance advantage, but consume more area and power. The design space of lazy SELF protocols is evaluated and verified. Several new designs are mapped to hybrid eager/lazy implementations that retain the performance advantage of the eager design but have power advantages of lazy implementations
AbstractThis paper reports on the design of a test chip built to test a) a new latency insensitive n...
Elastic systems provide tolerance to the variations in computation and communication delays. The inc...
Abstract—A ‘natural ’ way of describing an algorithm is as a data flow. When synthesizing hardware a...
International audienceSynchronous Elasticization converts an ordinary clocked circuit into Latency-I...
Elasticity in circuits and systems provides tolerance to variations in computation and communication...
Abstract—Synchronous elasticization converts an ordinary clocked design into Latency-Insensitive (LI...
This paper describes an implementation language and synthesis system for automatically generating la...
Abstract — A simple protocol for latency-insensitive design is presented. The main features of the p...
A protocol for latency-insensitive design with early evalua-tion is presented. The protocol is based...
A simple protocol for latency-insensitive design is presented. The main features of the protocol are...
dissertationElasticity is a design paradigm in which circuits can tolerate arbitrary latency/delay v...
We formally define - at the stream transformer level - a class of synchronous circuits that tolerate...
AbstractLatency Insensitive Protocols (LIP) and Elastic Circuits (EC) solve the same problem of rend...
Abstract — A simple protocol for latency-insensitive design is presented. The main features of the p...
Best Paper Award, Ninth International Conference on Application of Concurrency to System Design.Asyn...
AbstractThis paper reports on the design of a test chip built to test a) a new latency insensitive n...
Elastic systems provide tolerance to the variations in computation and communication delays. The inc...
Abstract—A ‘natural ’ way of describing an algorithm is as a data flow. When synthesizing hardware a...
International audienceSynchronous Elasticization converts an ordinary clocked circuit into Latency-I...
Elasticity in circuits and systems provides tolerance to variations in computation and communication...
Abstract—Synchronous elasticization converts an ordinary clocked design into Latency-Insensitive (LI...
This paper describes an implementation language and synthesis system for automatically generating la...
Abstract — A simple protocol for latency-insensitive design is presented. The main features of the p...
A protocol for latency-insensitive design with early evalua-tion is presented. The protocol is based...
A simple protocol for latency-insensitive design is presented. The main features of the protocol are...
dissertationElasticity is a design paradigm in which circuits can tolerate arbitrary latency/delay v...
We formally define - at the stream transformer level - a class of synchronous circuits that tolerate...
AbstractLatency Insensitive Protocols (LIP) and Elastic Circuits (EC) solve the same problem of rend...
Abstract — A simple protocol for latency-insensitive design is presented. The main features of the p...
Best Paper Award, Ninth International Conference on Application of Concurrency to System Design.Asyn...
AbstractThis paper reports on the design of a test chip built to test a) a new latency insensitive n...
Elastic systems provide tolerance to the variations in computation and communication delays. The inc...
Abstract—A ‘natural ’ way of describing an algorithm is as a data flow. When synthesizing hardware a...