Yiming Ouyang
YOU?
Author Swipe
View article: Anti-interference low-power double-edge triggered flip-flop based on C-elements
Anti-interference low-power double-edge triggered flip-flop based on C-elements Open
When the input signal has been interfered and glitches occur, the power consumption of Double-Edge Triggered Flip-Flops (DETFFs) will significantly increase. To effectively reduce the power consumption, this paper presents an anti-interfer…
View article: Single-Event Quadruple-Upset Self-Recoverable Latch Design
Single-Event Quadruple-Upset Self-Recoverable Latch Design Open
For the sake of the requirement to tolerate increasingly serious single event multimode upset, a kind of radiation hardened latch which can tolerate single event quadruple node upset: QNURL (quadruple node upset recovery latch) is proposed…
View article: Design of Multiple Node Upset Tolerant Latch in 32 nm CMOS Technology
Design of Multiple Node Upset Tolerant Latch in 32 nm CMOS Technology Open
With continuous scaling of CMOS technology, single event multi-node upset induced by charge sharing effect has become an important factor affecting chip reliability. This paper proposed a novel multi-node upset (MNU) tolerant latch design:…
View article: A Novel Low-Latency Regional Fault-Aware Fault-Tolerant Routing Algorithm for Wireless NoC
A Novel Low-Latency Regional Fault-Aware Fault-Tolerant Routing Algorithm for Wireless NoC Open
WiNoC has become a promising on-chip interconnect architecture. Due to the integration and manufacturing limits of wireless interconnects in nanotechnology, WiNoC systems are more susceptible to high failure rates. In this paper, we propos…
View article: cm<sup>3</sup>WiNoCs: Congestion-Aware Millimeter-Wave Multichannel Wireless Networks-on-Chip
cm<sup>3</sup>WiNoCs: Congestion-Aware Millimeter-Wave Multichannel Wireless Networks-on-Chip Open
Millimeter-wave (mm-Wave) technology has been widely adopted in recent wireless network-on-chip (WiNoC) design since it is fully compatible with current CMOS process. By employing efficient channel multiplexing mechanisms, the performance …