Enabling Technology for On-Chip Interconnection Networks

Dally, Bill

doi:10.1109/nocs.2007.17

Cited by 20 publications

(25 citation statements)

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“…-If the links use low-swing signaling, it is also possible to implement the topology switches using low-swing switches as presented in Dally [2007]. -If reconfiguration is expected to occur infrequently or only at initialization of the SoC platform, implementation styles similar to those used in FPGA switch boxes can be used for the TSs, such as pass-gates, tristate buffers, or multiplexers as shown in Figure 1(c).…”

Section: System Architecturementioning

confidence: 99%

The ReNoC Reconfigurable Network-on-Chip

Stuart

Stensgaard

Sparsø

2011

ACM Trans. Embed. Comput. Syst.

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This article presents a reconfigurable network-on-chip architecture called ReNoC, which is intended for use in general-purpose multiprocessor system-on-chip platforms, and which enables application-specific logical NoC topologies to be configured, thus providing both efficiency and flexibility. The article presents three novel algorithms that synthesize an application-specific NoC topology, map it onto the physical ReNoC architecture, and create deadlock-free, application-specific routing algorithms. We apply our algorithms to a mixture of real and synthetic applications and target three different physical architectures. Compared to a conventional NoC, ReNoC reduces power consumption by up to 58% on average.

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Section: System Architecturementioning

confidence: 99%

The ReNoC Reconfigurable Network-on-Chip

Stuart

Stensgaard

Sparsø

2011

ACM Trans. Embed. Comput. Syst.

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“…The router's power consumption is linear to the total bandwidth of its inputs [8]. Router power is dominant over wire propagation and buffer powers, motivating topologies with fewer hops and longer wires [4].…”

Section: Multi-core Ocins and Their Requirementsmentioning

confidence: 99%

“…Reconfigurable networks are effective but like non-blocking crossbars are too costly. Dally [4] pointed to the need to design low diameter OCINs with small area and power costs. A low network diameter is certainly a prime requirement of real-time applications in embedded systems.…”

Section: Introductionmentioning

confidence: 99%

Low Diameter Unicast On-Chip Interconnection Networks for Many-Core Embedded Systems

Sibai

2010

2010 International Conference on Complex, Intelligent and Software Intensive Systems

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It is critical for the network-on-chip in embedded multi-core and many-core chips to be scalable while limiting power consumption. With the router power dominating the network's power, one way to achieve this goal is by the design of on-chip interconnection networks with small diameters and simple routing. Herein, we present a few new unicast on-chip networks for interconnecting the cores with diameters superior to the popular 2D mesh.

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“…One of the prominent recent examples include Cell microprocessor [35]. This model considers CMP as a microscopic form of distributed computing, and is capable of making the most of on-chip interconnect, suggesting its potential scalability when the number of cores per chip increases and a relative wire delay inside a chip takes effect [9]. It can realise arbitrary forms of data sharing among cores' local memories, and in that sense it is generalpurpose.…”

Section: A Hardware Model and Dma Primitivesmentioning

confidence: 99%

“…In a high-level view, this approach regards CMP as distributed parallel machines with explicit remote data transfer among them, making the framework close to computing models such as the LogP model [7] and parallel hierarchical memories [1]. The direct, asynchronous memory-to-memory transfer as a means of data exchange is flexible and can potentially make the most of on-chip network bandwidth [26], which is many-fold larger than intra-host computer networks [9], promoting concurrent, asynchronous use of communication and computing elements inside a chip. As has been studied in the literature [15-17, 30, 31], message passing concurrency can flexibly and generally represent the diverse forms of control and data flows found in sequential and concurrent applications.…”

Section: Introductionmentioning

confidence: 99%

Session-Based Compilation Framework for Multicore Programming

Yoshida

Vasconcelos

Paulino

et al. 2009

Lecture Notes in Computer Science

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Abstract. This paper outlines a general picture of our ongoing work under EU Mobius and Sensoria projects on a type-based compilation and execution framework for a class of multicore CPUs. Our focus is to harness the power of concurrency and asynchrony in one of the major forms of multicore CPUs based on distributed, non-coherent memory, through the use of type-directed compilation. The key idea is to regard explicit asynchronous data transfer among local caches as typed communication among processes. By typing imperative processes with a variant of session types, we obtain both type-safe and efficient compilation into processes distributed over multiple cores with local memories.

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Enabling Technology for On-Chip Interconnection Networks

Cited by 20 publications

References 0 publications

The ReNoC Reconfigurable Network-on-Chip

The ReNoC Reconfigurable Network-on-Chip

Low Diameter Unicast On-Chip Interconnection Networks for Many-Core Embedded Systems

Session-Based Compilation Framework for Multicore Programming

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