Performance analysis of on-chip communication architecture in MPSoC

Shanthi, D.; Amutha, R.

doi:10.1109/icetect.2011.5760230

Cited by 11 publications

(5 citation statements)

References 14 publications

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“…We have discussed some of the issues related to the design of S.O.C with regard to the inter process communication of Various bus architectures and protocols have been review [1]. Currently, on-chip communication networks are mostly implemented using shared interconnects like buses [2]. Hence in the future research, it is focused to design an arbiter that dynamically schedules the requests by various masters occurring simultaneously and thus improving the performance of a multiprocessor with respect to latency and bandwidth [3].…”

Section: Literature Reviewmentioning

confidence: 99%

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Optimal Design of Reconfigurable Arbiter Algorithm used in On-Chip S.O.C.

Vardhan¹

2019

IJRASET

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This paper presents reconfigurable arbiter is placed in arbitration to the enhancement of the data transfer and reduce delay, latency and bandwidth b/w master core and slave cores. It provides high performance in real-time application on-chip S.O.C. The performance of arbitration in individual process was the earlier stages of the arbitration technique. In the processing of arbitration technique in a single step-by-step process the transfer of data from one multiple master to multiple core's causes delays. The simulations were done using XILINX 14.5.

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Section: Literature Reviewmentioning

confidence: 99%

“…TDMA lend its time with the lowest priority only during idle time. The advantage of this to implement a few execution requests in a particular time [2]. The disadvantage of this misleads of data transfer instead of reserved slots moves to other slots and low bandwidth.…”

Section: B Time Division Multiple Access (Tdma)mentioning

confidence: 99%

Optimal Design of Reconfigurable Arbiter Algorithm used in On-Chip S.O.C.

Vardhan¹

2019

IJRASET

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“…T f = T delay /T work (5) where T work is the total work time and T delay is the total idle time [18,19] . In bus-based arbitration, only one master among n masters could get the ownership of bus.…”

Section: Experiments Setupmentioning

confidence: 99%

An Asynchronous Adaptive Priority Round‐Robin Arbiter Based on Four‐Phase Dual‐rail Protocol

Yang¹,

Wu²,

Zhang³

et al. 2015

Chin. j. electron.

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“…Since arbiter is an important functional module in multiprocessor, therefore it should be carefully designed in high performance systems [17]. In order to optimize the performance of the bus, the time required to handle the request should be minimized [18,19]. Adaptive arbiter can provide the best bus bandwidth allocation as it distributes different bus bandwidth according to the real-time needs of different masters.…”

Section: Cmentioning

confidence: 99%

An intelligent arbiter for maximum CPU utilization, fair bandwidth allocation and low latency: Survey

Akhtar

Sidek

2012

2012 IEEE 8th International Colloquium on Signal Processing and Its Applications

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Accelerated advancement in the world of microprocessor necessitates solving the bus contention in a most efficient manner. The major challenge is to reduce the latency of the system and to achieve a fair bandwidth allocation using maximum CPU utilization. Combination of Adaptive Arbitration algorithm and the processors according to their traffic behavior can be one of the feasible options to tackle the aforesaid problems due to its fair bandwidth allotment and low system latency. This article provides a comprehensive picture of research and developments in dynamic arbitration algorithm for masters according to the traffic behavior. The papers published in standard journals are reviewed, classified according to their objectives and presented with a general conclusion. Keywords-adaptive arbiter; fair bandwidth; low latency; system-onchip; traffic behaviorI.978-1-4673-0961-5/12/$31.00 ©2012 IEEE

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Performance analysis of on-chip communication architecture in MPSoC

Cited by 11 publications

References 14 publications

Optimal Design of Reconfigurable Arbiter Algorithm used in On-Chip S.O.C.

Optimal Design of Reconfigurable Arbiter Algorithm used in On-Chip S.O.C.

An Asynchronous Adaptive Priority Round‐Robin Arbiter Based on Four‐Phase Dual‐rail Protocol

An intelligent arbiter for maximum CPU utilization, fair bandwidth allocation and low latency: Survey

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