Latency-insensitive design copes with excessive delays typical of global wires in current and future IC technologies. It achieves its goal via encapsulation of synchronous logic blocks in wrappers that communicate through a latency-insensitive protocol (LIP) and pipelined interconnects. Previously proposed solutions suffer from an excessive performance penalty in terms of throughput or from a lack of generality. This article presents an adaptive LIP that outperforms previous static implementations, as demonstrated by two relevant cases — a microprocessor and an MPEG encoder — whose components we made insensitive to the latencies of their interconnections through a newly developed wrapper. We also present an informal exposition of the theore...
Wire pipelining has been proposed as a viable mean to break the discrepancy between decreasing gate ...
The size of future high-performance SoC is such that the time-of-flight of wires connecting distant ...
Wire Pipelining (WP) has been proposed in order to limit the impact of increasing wire delays. In ge...
The latency insensitive protocols (LIP), which are designed to improve the performance of systems-on...
With the arrival of nanometer technologies wire delays are no longer negligible with respect to gate...
AbstractLatency Insensitive Protocols (LIP) and Elastic Circuits (EC) solve the same problem of rend...
AbstractAs Globally Asynchronous and Locally Synchronous (GALS) based System-on-chip (SoC) are gaini...
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...
International audienceLatency-insensitive design (LID) theory was invented to deal with SoC timing c...
Latency Insensitive Protocols have been proposed as a viable mean to speed up large Systems-on-Chip ...
Latency-insensitive protocols allow system-on-chip engineers to decouple the design of the computing...
AbstractThis paper introduces a new variant implementation of Latency-Insensitive Design elements. I...
The gap between worst and typical case delays is bound to increase in nanometer scale technologies d...
Due to the increasing scaling of digital system, System-on-Chip (SoC) design deals with latencies pr...
Wire pipelining has been proposed as a viable mean to break the discrepancy between decreasing gate ...
The size of future high-performance SoC is such that the time-of-flight of wires connecting distant ...
Wire Pipelining (WP) has been proposed in order to limit the impact of increasing wire delays. In ge...
The latency insensitive protocols (LIP), which are designed to improve the performance of systems-on...
With the arrival of nanometer technologies wire delays are no longer negligible with respect to gate...
AbstractLatency Insensitive Protocols (LIP) and Elastic Circuits (EC) solve the same problem of rend...
AbstractAs Globally Asynchronous and Locally Synchronous (GALS) based System-on-chip (SoC) are gaini...
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...
International audienceLatency-insensitive design (LID) theory was invented to deal with SoC timing c...
Latency Insensitive Protocols have been proposed as a viable mean to speed up large Systems-on-Chip ...
Latency-insensitive protocols allow system-on-chip engineers to decouple the design of the computing...
AbstractThis paper introduces a new variant implementation of Latency-Insensitive Design elements. I...
The gap between worst and typical case delays is bound to increase in nanometer scale technologies d...
Due to the increasing scaling of digital system, System-on-Chip (SoC) design deals with latencies pr...
Wire pipelining has been proposed as a viable mean to break the discrepancy between decreasing gate ...
The size of future high-performance SoC is such that the time-of-flight of wires connecting distant ...
Wire Pipelining (WP) has been proposed in order to limit the impact of increasing wire delays. In ge...