TY - GEN
T1 - Energy-efficient techniques for circuit design in network-on-chip platforms
AU - Huang, Po-Tsang
AU - Hwang, Wei
PY - 2010
Y1 - 2010
N2 - Advanced network-on-chip (NOC) designs using nano-scale technologies face a number of challenges, especially for great amount of energy consumption in switch fabrics and link wires. In this paper, some energy-efficient techniques are presented for circuit design in network-on-chip platforms, including low-power and variation-tolerant link wires, adaptive congestion-aware routing and asynchronous two-level FIFO buffers. Energy-efficient and reliable link wires are provided by a novel self-calibrated low-power coding and voltage scaling interconnection architecture. This approach makes the NoC applications tolerant of transient malfunctions and realizes energy efficiency. Additionally, an adaptive congestion-aware routing is proposed to reduce the average latencies by avoiding the congestion conditions and distributed hotspots. Moreover, an asynchronous two-level FIFO buffer can reduce energy consumption compared with that of synchronous two-level FIFO buffers and conventional asynchronous output buffers.
AB - Advanced network-on-chip (NOC) designs using nano-scale technologies face a number of challenges, especially for great amount of energy consumption in switch fabrics and link wires. In this paper, some energy-efficient techniques are presented for circuit design in network-on-chip platforms, including low-power and variation-tolerant link wires, adaptive congestion-aware routing and asynchronous two-level FIFO buffers. Energy-efficient and reliable link wires are provided by a novel self-calibrated low-power coding and voltage scaling interconnection architecture. This approach makes the NoC applications tolerant of transient malfunctions and realizes energy efficiency. Additionally, an adaptive congestion-aware routing is proposed to reduce the average latencies by avoiding the congestion conditions and distributed hotspots. Moreover, an asynchronous two-level FIFO buffer can reduce energy consumption compared with that of synchronous two-level FIFO buffers and conventional asynchronous output buffers.
UR - http://www.scopus.com/inward/record.url?scp=77956582955&partnerID=8YFLogxK
U2 - 10.1109/ICGCS.2010.5543047
DO - 10.1109/ICGCS.2010.5543047
M3 - Conference contribution
AN - SCOPUS:77956582955
SN - 9781424468775
T3 - 1st International Conference on Green Circuits and Systems, ICGCS 2010
SP - 305
EP - 310
BT - 1st International Conference on Green Circuits and Systems, ICGCS 2010
T2 - 1st International Conference on Green Circuits and Systems, ICGCS 2010
Y2 - 21 June 2010 through 23 June 2010
ER -