This paper presents a novel optimization technique for the design of application specific integrated circuits dedicated to perform iterative or recursive time-critical sections of multi-dimensional problems, such as image processing applications. These sections are modeled as cyclic multi-dimensional data flow graphs (MDFGs). This new technique, called multi-dimensional interleaving consists of an expansion and compression of the iteration space while considering memory requirements. It guarantees that all functional elements of a circuitry can be executed simultaneously, and no additional memory queues proportional to the problem size are required. The algorithm runs in O(jEj) time, where E is the set of edges of the MDFG representing the ...
AbstractIn hardware design, it is necessary to simulate the anticipated behavior of the integrated c...
In designing VLSI architectures for a complex computational task, the functional decomposition of th...
The lithography used for 32 nanometers and smaller VLSI process technologies restricts the admissibl...
This paper presents a novel optimization technique for the design of application specific integrated...
Time-critical sections of multi-dimensional problems, such as image processing applications, are in ...
International audience— Multidimensional retiming is an efficient optimization approach that ensures...
This paper presents an exploration algorithm which examines execution time and energy consumption of...
Most scientific and DSP applications are recursive or iterative. Uniform nested loops can be modeled...
Interconnect design has emerged as one of the major challenges facing chip designers as VLSI manufac...
Many computation-intensive or recursive applications commonly found in digital signal processing and...
This thesis proposes a graph-based maze routing and buffer insertion algorithm for nanometer Very La...
Recent developments in the technology of fabricating large-scale integrated circuits have made it po...
The advent of the nanotechnology has introduced new challenges and non-conventional problems to high...
A large number of algorithms for multidimensional signals processing and scientific computation come...
Achieving optimal throughput by extracting parallelism in behavioral synthesis often exaggerates mem...
AbstractIn hardware design, it is necessary to simulate the anticipated behavior of the integrated c...
In designing VLSI architectures for a complex computational task, the functional decomposition of th...
The lithography used for 32 nanometers and smaller VLSI process technologies restricts the admissibl...
This paper presents a novel optimization technique for the design of application specific integrated...
Time-critical sections of multi-dimensional problems, such as image processing applications, are in ...
International audience— Multidimensional retiming is an efficient optimization approach that ensures...
This paper presents an exploration algorithm which examines execution time and energy consumption of...
Most scientific and DSP applications are recursive or iterative. Uniform nested loops can be modeled...
Interconnect design has emerged as one of the major challenges facing chip designers as VLSI manufac...
Many computation-intensive or recursive applications commonly found in digital signal processing and...
This thesis proposes a graph-based maze routing and buffer insertion algorithm for nanometer Very La...
Recent developments in the technology of fabricating large-scale integrated circuits have made it po...
The advent of the nanotechnology has introduced new challenges and non-conventional problems to high...
A large number of algorithms for multidimensional signals processing and scientific computation come...
Achieving optimal throughput by extracting parallelism in behavioral synthesis often exaggerates mem...
AbstractIn hardware design, it is necessary to simulate the anticipated behavior of the integrated c...
In designing VLSI architectures for a complex computational task, the functional decomposition of th...
The lithography used for 32 nanometers and smaller VLSI process technologies restricts the admissibl...