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Efficient Router Architecture for Trace Reduction During NoC Post-Silicon Validation | IEEE Conference Publication | IEEE Xplore

Efficient Router Architecture for Trace Reduction During NoC Post-Silicon Validation

Publisher: IEEE

Abstract:

The contemporary network-on-chips (NoCs) have highly complex architectures. So, robust post-silicon validation mechanism is required for error-proof NoC design. Traces of...View more

Abstract:

The contemporary network-on-chips (NoCs) have highly complex architectures. So, robust post-silicon validation mechanism is required for error-proof NoC design. Traces of packet transactions are generated during NoC validation and are stored for fault analysis. Size of trace generated, directly translates into onchip storage cost and communication bandwidth requirement. Our work proposes a modified NoC router architecture which eliminates the redundant traces and only stores the meaningful traces. This results in reduction of total trace amount while maintaining the same level of system internal observability. The scheme is proved to be beneficial for short-lived communication faults (packet drop, direction fault etc.), and shows around 23% to 36% of trace reduction in case of a 8x8 mesh network for each cycle trace capture. The overhead introduced is nominal and can further be reduced in case of permanent network faults.
Date of Conference: 03-06 September 2019
Date Added to IEEE Xplore: 07 May 2020
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ISSN Information:

Publisher: IEEE
Conference Location: Singapore

References

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