Designing Application-Specific Networks on Chips with Floorplan Information

Murali, Srinivasan; Meloni, Paolo; Angiolini, Federico; Atienza, David; Carta, Salvatore; Benini, Luca; Micheli, Giovanni De; Raffo, Luigi

doi:10.1109/iccad.2006.320058

Cited by 72 publications

(118 citation statements)

References 17 publications

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“…While it is extensible with new algorithms and components, it does not consider asynchronous network components and, as future work, cites the need for integrating traffic burstiness. For the Xpipes library, a heuristic search determines the topology and router configuration [6]. It uses floorplan information, router energy models, and core communication requirements.…”

Section: Related Workmentioning

confidence: 99%

Comparing Energy and Latency of Asynchronous and Synchronous NoCs for Embedded SoCs

Gebhardt

You

Stevens

2010

2010 Fourth ACM/IEEE International Symposium on Networks-on-Chip

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Abstract-Power consumption of on-chip interconnects is a primary concern for many embedded system-on-chip (SoC) applications. In this paper, we compare energy and performance characteristics of asynchronous (clockless) and synchronous networkon-chip implementations, optimized for a number of SoC designs. We adapted the COSI-2.0 framework with ORION 2.0 router and wire models for synchronous network generation. Our own tool, ANetGen, specifies the asynchronous network by determining the topology with simulated-annealing and router locations with force-directed placement. It uses energy and delay models from our 65 nm bundled-data router design. SystemC simulations varied traffic burstiness using the self-similar b-model. Results show that the asynchronous network provided lower median and maximum message latency, especially under bursty traffic, and used far less router energy with a slight overhead for the interrouter wires.

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Section: Related Workmentioning

confidence: 99%

Comparing Energy and Latency of Asynchronous and Synchronous NoCs for Embedded SoCs

Gebhardt

You

Stevens

2010

2010 Fourth ACM/IEEE International Symposium on Networks-on-Chip

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“…As discussed in Section II, 3D designs are likely to expose a large degree of heterogeneity, especially along the vertical axis. Therefore, we choose to base our integration effort on the ×pipes [26] NoC library, which supports arbitrary connectivity, and on its instantiation toolchain [33]. Thus, we can leverage a semi-automatic design flow, from RTL description to layoutlevel verification.…”

Section: Integration Of Tsvs Within Noc Switchesmentioning

confidence: 99%

“…As a first step, we leverage SunFloor [33] to instantiate the 2D mesh. There is no need to modify the RTL output of SunFloor in any way.…”

Section: Integration Of Tsvs Within Noc Switchesmentioning

confidence: 99%

Supporting vertical links for 3D networks-on-chip: toward an automated design and analysis flow

Loi

Angiolini

Benini

2007

Proceedings of the Second International Conference on Nano-Networks

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Abstract-Three-dimensional (3D) manufacturing technologies are viewed as promising solutions to the bandwidth bottlenecks in VLSI communication. At the architectural level, Networkson-chip (NoCs) have been proposed to address the complexity of interconnecting an ever-growing number of cores, memories and peripherals. NoCs are a promising choice for implementing scalable 3D interconnect architectures. However, the development of 3D NoCs is still at an early development stage. In this paper, we present a semi-automated design flow for 3D NoCs. Starting from an accurate physical and geometric model of ThroughSilicon Vias (TSVs), we extract a circuit-level model for vertical interconnections, and we use it to evaluate the design implications of extending switch architectures with ports in the vertical direction. In addition, we present a design flow allowing for post-layout simulation of NoCs with links in all three physical dimensions.

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“…However, although mapping and routing problems are addressed in the paper, topology exploration is not. In [12] the authors use a similar shortest path algorithm for routing but in this case the path selection is not based on timing requirements directly, but rather on energy consumption and operating frequency of the links. The experiments presented in [12] are also based on silicon level simulation.…”

Section: Introductionmentioning

confidence: 99%

“…In [12] the authors use a similar shortest path algorithm for routing but in this case the path selection is not based on timing requirements directly, but rather on energy consumption and operating frequency of the links. The experiments presented in [12] are also based on silicon level simulation. Although we decided not to conduct experiments on silicone level, the results of our real-time performance oriented work could be used for guidance of low-level implementation.…”

Section: Introductionmentioning

confidence: 99%

Algorithm for the Choice of Topology in Reconfigurable On-Chip Networks with Real-Time Support

Kunert

Weckstén

Jönsson

2007

Proceedings of the Second International Conference on Nano-Networks

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Many future embedded systems are likely to contain System-onChip solutions with on-chip networks and in order to achieve high aggregated throughputs in these networks, a switched topology can be used. For further performance improvements, the topology can be adapted to application demands, either when designing the chip or by run-time reconfiguration between different predefined application modes. In this paper, we present an algorithm for the choice of topology in, e.g., on-chip networks, considering realtime demands in terms of throughput and delay often put on such systems. To further address possible real-time demands, we include a feasibility analysis to check that the application, when mapped onto the system, will behave in line with its real-time demands. With input information about traffic characteristics, our algorithm creates a topology and generates routing information for all logical traffic channels. In a case study, we show that our algorithm results in a topology that can outperform the use of state of the art topologies for high-performance computer architectures.

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Designing Application-Specific Networks on Chips with Floorplan Information

Cited by 72 publications

References 17 publications

Comparing Energy and Latency of Asynchronous and Synchronous NoCs for Embedded SoCs

Comparing Energy and Latency of Asynchronous and Synchronous NoCs for Embedded SoCs

Supporting vertical links for 3D networks-on-chip: toward an automated design and analysis flow

Algorithm for the Choice of Topology in Reconfigurable On-Chip Networks with Real-Time Support

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