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Learning Electrical Behavior of Core Interconnects for System-Level Crosstalk Prediction | IEEE Conference Publication | IEEE Xplore

Learning Electrical Behavior of Core Interconnects for System-Level Crosstalk Prediction


Abstract:

Efficient distribution of tasks in an SOC between various components of an embedded system affect rate of data exchange between cores and obviously the number and fanout ...Show More

Abstract:

Efficient distribution of tasks in an SOC between various components of an embedded system affect rate of data exchange between cores and obviously the number and fanout of interconnecting cores. Data rate and interconnect fanouts depend on post-layout wire characteristics that, in the worst-case situation, must be evaluated for abovementioned system level decisions. In this work we are making provisions for avoiding this large gap between high-level decision making and low-level physical properties. IP-core interconnects can be fully characterized by post layout information of the IP-core, load properties, and the number of destination cores they are driving. This information can be back-annotated into abstract system-level interconnect models to be used by core integrators for design space exploration (DSE). Fanout and/or frequency of operation of an IP-core can be decided by this DSE environment. In this work, we propose a machine-learning based methodology that uses signoff parasitic information and the actual wire data to generate the dataset and train a model. The model was evaluated in fast high-level SystemC environment for two RISC-V based processors in two SoCs. The models were 26 times faster than the low-level simulations with a crosstalk fault coverage of 1.5% error.
Date of Conference: 22-26 May 2023
Date Added to IEEE Xplore: 12 July 2023
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Conference Location: Venezia, Italy

References

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