The use of a realistic component library with multiple implementations of operators, results in cost efficient designs; slow components can then be used on non-critical paths and the more expensive components on only the critical paths. This report presents a cost-optimized algorithm for selecting components and pipelining a data flow graph, given a multiple-implementation library, and throughput and latency constraints. Results on several DSP examples indicate the importance of component selection as a parameter in design space exploration
This dissertation presents a new algorithm for dynamic pipeline network time-area optimization, call...
The development of general techniques for the analyses of digital filters with arbitrary topology is...
As technology scales, signals may reach proportionally less and less chip area within a single clock...
Abstract The use of a realistic component library with multiple implementations of operators, result...
Exploration plays an important role in the design of high-performance pipelines. We propose an explo...
In order to perform high-throughput DSP computations, that are predominantly vector or array based, ...
In order to satisfy cost and performance requirements, digital signal processing and telecommunicati...
This paper introduces a new methodology for pipeline synthesis with applications to data flow high-l...
This paper introduces a new methodology for pipeline synthesis with applications to data flow high-l...
Abstract This paper presents a fast analytical method for estimating the throughput of pipelined as...
International audienceA common optimization of signal and image processing applications is the pipel...
The rising complexity, customization and short time to market of modern digital systems requires aut...
Given a hardware/software partitioned specification and an allocation (number and type) of processor...
The specification of a synchronous circuit can be given as a set of abstract building blocks that ar...
In high level synthesis a data-flow graph (DFG) description of an algorithm is mapped onto a registe...
This dissertation presents a new algorithm for dynamic pipeline network time-area optimization, call...
The development of general techniques for the analyses of digital filters with arbitrary topology is...
As technology scales, signals may reach proportionally less and less chip area within a single clock...
Abstract The use of a realistic component library with multiple implementations of operators, result...
Exploration plays an important role in the design of high-performance pipelines. We propose an explo...
In order to perform high-throughput DSP computations, that are predominantly vector or array based, ...
In order to satisfy cost and performance requirements, digital signal processing and telecommunicati...
This paper introduces a new methodology for pipeline synthesis with applications to data flow high-l...
This paper introduces a new methodology for pipeline synthesis with applications to data flow high-l...
Abstract This paper presents a fast analytical method for estimating the throughput of pipelined as...
International audienceA common optimization of signal and image processing applications is the pipel...
The rising complexity, customization and short time to market of modern digital systems requires aut...
Given a hardware/software partitioned specification and an allocation (number and type) of processor...
The specification of a synchronous circuit can be given as a set of abstract building blocks that ar...
In high level synthesis a data-flow graph (DFG) description of an algorithm is mapped onto a registe...
This dissertation presents a new algorithm for dynamic pipeline network time-area optimization, call...
The development of general techniques for the analyses of digital filters with arbitrary topology is...
As technology scales, signals may reach proportionally less and less chip area within a single clock...