TY - GEN
T1 - Interconnect-fault-resilient delay-insensitive asynchronous communication link based on current-flow monitoring
AU - Onizawa, Naoya
AU - Matsumoto, Atsushi
AU - Hanyu, Takahiro
PY - 2011
Y1 - 2011
N2 - Delay-insensitive asynchronous on-chip communication links are a key element to realize a highly reliable asynchronous Network-on-Chip system. However, even a single permanent fault, such as an interconnect fault, causes a deadlock state in the system. This paper presents an interconnect-fault- resilient delay-insensitive asynchronous communication link based on current-flow monitoring. Since current flow upon an interconnect is cut off by an open fault in the interconnect, the current is fed back to a transmitter, which increases a feedback current monotonically. Monitoring the feedback current makes it possible to detect the interconnect fault with delay insensitivity. The proposed link is evaluated by a 0.13μm CMOS technology with a Triple Modular Redundancy (TMR)-based asynchronous communication link which is resilient to the interconnect fault without the delay insensitivity. As a result, the energy consumption and the number of wires of the proposed link are reduced to 57% and 33%, respectively, in comparison with those of the conventional one.
AB - Delay-insensitive asynchronous on-chip communication links are a key element to realize a highly reliable asynchronous Network-on-Chip system. However, even a single permanent fault, such as an interconnect fault, causes a deadlock state in the system. This paper presents an interconnect-fault- resilient delay-insensitive asynchronous communication link based on current-flow monitoring. Since current flow upon an interconnect is cut off by an open fault in the interconnect, the current is fed back to a transmitter, which increases a feedback current monotonically. Monitoring the feedback current makes it possible to detect the interconnect fault with delay insensitivity. The proposed link is evaluated by a 0.13μm CMOS technology with a Triple Modular Redundancy (TMR)-based asynchronous communication link which is resilient to the interconnect fault without the delay insensitivity. As a result, the energy consumption and the number of wires of the proposed link are reduced to 57% and 33%, respectively, in comparison with those of the conventional one.
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M3 - Conference contribution
AN - SCOPUS:79957559178
SN - 9783981080179
T3 - Proceedings -Design, Automation and Test in Europe, DATE
SP - 776
EP - 781
BT - Proceedings - Design, Automation and Test in Europe Conference and Exhibition, DATE 2011
T2 - 14th Design, Automation and Test in Europe Conference and Exhibition, DATE 2011
Y2 - 14 March 2011 through 18 March 2011
ER -
