Proceedings ArticleDOI
A 6.5-mW 5-Gbps On-Chip Differential Transmission Line Interconnect with a Low-Latency Asymmetric Tx in a 180nm CMOS Technology
Takahiro Ishii,Hiroyuki Ito,Makoto Kimura,Kenichi Okada,Kazuya Masu +4 more
- pp 131-134
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TLDR
In this paper, an on-chip differential transmission-line (DTL) interconnect is proposed to reduce delay and power consumption in long global interconnects, which can transmit signals at near light-of-speed with small power dissipation of Tx.Abstract:
This paper proposes an on-chip differential- transmission-line (DTL) interconnect to reduce delay and power consumption in long global interconnects The DTL interconnect can transmit signals at near light-of-speed with small power dissipation of Tx The proposed DTL interconnect consists of Tx, DTL and Rx, and an asymmetric Tx is employed to reduce offset delay in Tx In the measurement result, 5 Gbps signal transmission can be achieved through 3 mm-length interconnect, and delay and total power consumption are 140 ps and 65 mW, respectively A 180 nm standard CMOS process was utilized Figure of merit (FoM) for on-chip interconnects is proposed to evaluate delay and power consumption The proposed DTL interconnect is compared with the conventional RC, DTL and optical interconnects, and it achieves the highest FoM at more than 5 mm lengthread more
Citations
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Journal ArticleDOI
A Bidirectional- and Multi-Drop-Transmission-Line Interconnect for Multipoint-to-Multipoint On-Chip Communications
TL;DR: A novel transceiver that consists of a single differential-amplifier and serves as both a transmitter and a receiver for transmitting signals to multipoint for on-chip high-speed networks that have big impact in chip performances is proposed.
Proceedings Article
A Bidirectional-and Multi-Drop-Transmission-Line Interconnect for Multipoint-to-Multipoint On-Chip Communications
TL;DR: In this paper, a bidirectional and multi-drop-transmission-line interconnect for on-chip high-speed networks that have big impact in chip performances is investigated.
Journal ArticleDOI
A Q-Learning Based Self-Adaptive I/O Communication for 2.5D Integrated Many-Core Microprocessor and Memory
TL;DR: Simulation results show that the proposed adaptive 2.5D I/Os (in 65 nm CMOS) can achieve an average of 12.5 mW I/O power, 4 GHz bandwidth and 3.125 pJ/bit energy efficiency for one channel under 10-6 BER.
Proceedings ArticleDOI
Reinforcement learning based self-adaptive voltage-swing adjustment of 2.5D I/Os for many-core microprocessor and memory communication
TL;DR: An online reinforcement Q-learning algorithm is developed to perform a self-adaptive voltage-swing control of 2.5D through-silicon interposer (TSI) I/O circuits for energy-efficient communication between many-core microprocessor and memory.
Proceedings ArticleDOI
An energy-efficient 2.5D through-silicon interposer I/O with self-adaptive adjustment of output-voltage swing
TL;DR: Experimental results show that the adaptive 2.5D TSI I/Os designed in 65nm CMOS can achieve an average of 13mW I/O power, 4GHz bandwidth and 3.25pJ=bit energy efficiency for one channel under 10-6 BER, which has 21.42% reduction of power and 14.47% energy efficiency improvement.
References
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Optical interconnections for VLSI systems
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Intra-chip wireless interconnect for clock distribution implemented with integrated antennas, receivers, and transmitters
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Proceedings ArticleDOI
A 51mW 1.6GHz on-chip network for low-power heterogeneous SoC platform
Kangmin Lee,Se-Joong Lee,Sung-Eun Kim,Hye-Mi Choi,Dong-Hyun Kim,Sunyoung Kim,Min-Wuk Lee,Hoi-Jun Yoo +7 more
TL;DR: A 1.6GHz on-chip network integrating two processors, memories, and an FPGA provides 11.2GB/s bandwidth in 0.18/spl mu/m 6M CMOS technology supporting globally asynchronous, locally synchronous mode and programmable clocking.