Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have become a reality. As the communication complexity of such multicore systems is rapidly increasing, designing an interconnect architecture with predictable behavior is essential for proper system operation. In CMPs, general-purpose processor cores are used to run software tasks of different applications and the communication between the cores cannot be precharacterized. Designing an efficient network-on-chip (NoC)-based interconnect with predictable performance is thus a challenging task. In this paper, we address the important design issue of synthesizing the most power efficient NoC interconnect for CMPs, providing guaranteed optim...
Abstract—Network-on-Chip (NoC) architectures with opti-mized topologies have been shown to be superi...
Packet-switched networks-on-chip (NOC) have been advo-cated as the solution to the challenge of orga...
Chip multiprocessors (CMPs) combine increasingly many general-purpose processor cores on a single ch...
Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have ...
Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have b...
With the growing complexity in consumer embedded products, new tendencies forecast heterogeneous Mul...
With increasing communication demands of processor and memory cores in Systems on Chips (SoCs), scal...
Research on Networks on Chips (NoCs) has spanned over a decade and its results are now visible in so...
The advent of new technologies brings revolutions in the fields of VLSI design and high performance ...
To tackle the increasing communication complexity of multi-core systems, scalable Networks on Chips ...
To face increasing requirements for computational density in embedded chips, MultiProcessor Systems-...
Multiprocessor system-on-chip (MP-SoC) platforms are emerging as an important trend for System on Ch...
A large part of today's multi-core chips is interconnect. Increasing communication complexity has ma...
offers the opportunity for incorporating custom network-on-chip (NoC) architectures that are more su...
As the number of cores on a chip increases, power consumed by the communication structures takes sig...
Abstract—Network-on-Chip (NoC) architectures with opti-mized topologies have been shown to be superi...
Packet-switched networks-on-chip (NOC) have been advo-cated as the solution to the challenge of orga...
Chip multiprocessors (CMPs) combine increasingly many general-purpose processor cores on a single ch...
Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have ...
Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have b...
With the growing complexity in consumer embedded products, new tendencies forecast heterogeneous Mul...
With increasing communication demands of processor and memory cores in Systems on Chips (SoCs), scal...
Research on Networks on Chips (NoCs) has spanned over a decade and its results are now visible in so...
The advent of new technologies brings revolutions in the fields of VLSI design and high performance ...
To tackle the increasing communication complexity of multi-core systems, scalable Networks on Chips ...
To face increasing requirements for computational density in embedded chips, MultiProcessor Systems-...
Multiprocessor system-on-chip (MP-SoC) platforms are emerging as an important trend for System on Ch...
A large part of today's multi-core chips is interconnect. Increasing communication complexity has ma...
offers the opportunity for incorporating custom network-on-chip (NoC) architectures that are more su...
As the number of cores on a chip increases, power consumed by the communication structures takes sig...
Abstract—Network-on-Chip (NoC) architectures with opti-mized topologies have been shown to be superi...
Packet-switched networks-on-chip (NOC) have been advo-cated as the solution to the challenge of orga...
Chip multiprocessors (CMPs) combine increasingly many general-purpose processor cores on a single ch...