Manycore CMP systems are expected to grow to tens or even hundreds of cores. In this paper we show that the effective co-design of both, the network-on-chip and the coherence protocol, improves performance and power meanwhile total area resources remain bounded. We propose a snoopy-aware network-on-chip topology made of two mesh-of-tree topologies. Reducing the complexity of the coherence protocol - and hence its resources - and moving this complexity to the network, leads to a global decrease in power consumption meanwhile area is barely affected. Benefits of our proposal are due to the high-throughput and low delay of the network, but also due to the simplicity of the coherence protocol. The proposed network and protocol minimizes communi...
This paper proposes to tackle Networks-on-chip design for MPSoC on the assumption that area and powe...
Abstract—In chip-multiprocessors (CMPs) the network-on-chip (NoC) carries cache coherence and data m...
This paper studies alternative Network-on-Chip architectures for emerging many-core chip multiproces...
Manycore CMP systems are expected to grow to tens or even hundreds of cores. In this paper we show t...
URL to conference programIn the many-core era, scalable coherence and on-chip interconnects are cruc...
In the many-core era, scalable coherence and on-chip in-terconnects are crucial for shared memory pr...
Abstract—Chip Multiprocessor Systems (CMPs) rely on a cache coherency protocol to maintain memory ac...
With transistor miniaturization leading to an abundance of on-chip resources and uniprocessor design...
CMOS technology scaling has enabled increasing transistor density on chip. At the same time, multi-c...
Network-on-Chip (NoC) is emerging as a critical shared architecture for CMPs (Chip Multi-/Many-Core ...
The paper introduces Network-on-Chip (NoC) design methodology and low cost mechanisms for supporting...
Chip Multi-Processor (CMP) architectures have become mainstream for designing processors. With a lar...
Design complexity and limited power budget are causing the number of cores on the same chip to grow ...
[EN] Future chip multiprocessors will include hundreds of cores organised in a tile-based design pat...
Networks on Chip (NoCs) have a large impact on system performance, area, and energy. NoCs convey req...
This paper proposes to tackle Networks-on-chip design for MPSoC on the assumption that area and powe...
Abstract—In chip-multiprocessors (CMPs) the network-on-chip (NoC) carries cache coherence and data m...
This paper studies alternative Network-on-Chip architectures for emerging many-core chip multiproces...
Manycore CMP systems are expected to grow to tens or even hundreds of cores. In this paper we show t...
URL to conference programIn the many-core era, scalable coherence and on-chip interconnects are cruc...
In the many-core era, scalable coherence and on-chip in-terconnects are crucial for shared memory pr...
Abstract—Chip Multiprocessor Systems (CMPs) rely on a cache coherency protocol to maintain memory ac...
With transistor miniaturization leading to an abundance of on-chip resources and uniprocessor design...
CMOS technology scaling has enabled increasing transistor density on chip. At the same time, multi-c...
Network-on-Chip (NoC) is emerging as a critical shared architecture for CMPs (Chip Multi-/Many-Core ...
The paper introduces Network-on-Chip (NoC) design methodology and low cost mechanisms for supporting...
Chip Multi-Processor (CMP) architectures have become mainstream for designing processors. With a lar...
Design complexity and limited power budget are causing the number of cores on the same chip to grow ...
[EN] Future chip multiprocessors will include hundreds of cores organised in a tile-based design pat...
Networks on Chip (NoCs) have a large impact on system performance, area, and energy. NoCs convey req...
This paper proposes to tackle Networks-on-chip design for MPSoC on the assumption that area and powe...
Abstract—In chip-multiprocessors (CMPs) the network-on-chip (NoC) carries cache coherence and data m...
This paper studies alternative Network-on-Chip architectures for emerging many-core chip multiproces...