Design of Reconfigurable Crossbar Switch for BiNoC Router
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Abstract
this paper presents implementation of 10x10 reconfigurable crossbar switch (RCS) architecture for Dynamic Self-Reconfigurable BiNoC Architecture for Network On Chip. Its main purpose is to increase the performance, flexibility. This paper presents a VHDL based cycle accurate register transfer level model for evaluating the, Power and Area of reconfigurable cross bar switch in BiNoC architectures. We implemented a parameterized register transfer level design of reconfigurable crossbar switch (RCS) architecture. The design is parameterized on (i) size of packets, (ii) length and width of physical links, (iii) number, and depth of arbiters, and (iv) switching technique. The paper discusses in detail the architecture and characterization of the various reconfigurable crossbar switch (RCS) architecture components. The characterized values were integrated into the VHDL based RTL design to build the cycle accurate performance model. In this paper we show the result of simple 10x10 crossbar switch .The results include VHDL simulation of RCS on Xilinx ISE 13.1 software tool.
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How to Cite
, M. A. K. M. V. K. R. P. P. P. M. N. (2013). Design of Reconfigurable Crossbar Switch for BiNoC Router. International Journal on Recent and Innovation Trends in Computing and Communication, 1(4), 234–240. https://doi.org/10.17762/ijritcc.v1i4.2768
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