Lev Kirischian scite author profile

Systems for application domains like robotics, aerospace, defense, autonomous vehicles, etc. are usually developed on System-on-Programmable Chip (SoPC) platforms, capable of supporting several multi-modal computation-intensive tasks on their FPGAs. Since such systems are mostly autonomous and mobile, they have rechargeable power sources and therefore, varying power budgets. They may also develop hardware faults due to radiation, thermal cycling, aging, etc. Systems must be able to sustain the performance requirements of their multi-task multi-modal workload in the presence of variations in available power or occurrence of hardware faults. This paper presents an approach for mitigating power budget variations and hardware faults (transient and permanent) by run-time structural adaptation of the SoPC. The proposed method is based on dynamically allocating, relocating and re-integrating task-specific processing circuits inside the partially reconfigurable FPGA to accommodate the available power budget, satisfy tasks’ performances and hardware resource constraints, and/or to restore task functionality affected by hardware faults. The proposed method has been experimentally implemented on the ARM Cortex-A9 processor of Xilinx Zynq XC7Z020 FPGA. Results have shown that structural adaptation can be done in units of milliseconds since the worst-case decision-making process does not exceed the reconfiguration time of a partial bit-stream.

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Run-Time Recovery Mechanism for Transient and Permanent Hardware Faults Based on Distributed, Self-Organized Dynamic Partially Reconfigurable Systems

Dumitriu

Kirischian

Kirischian³

2016

IEEE Trans. Comput.

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On-Chip Thermal Balancing using Dynamic Structural Adaptation of FPGA-Based Multi-task SoPCs for Space-Borne Applications

Sharma

Kirischian²,

Kirischian

2019

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SoPC Self-Integration Mechanism for Seamless Architecture Adaptation to Stream Workload Variations

Dumitriu

Kirischian

2016

IEEE Trans. VLSI Syst.

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Lev Kirischian

Multi-parametric optimisation of the modular computer architecture

Run-Time Mitigation of Power Budget Variations and Hardware Faults by Structural Adaptation of FPGA-Based Multi-Modal SoPC

Run-Time Recovery Mechanism for Transient and Permanent Hardware Faults Based on Distributed, Self-Organized Dynamic Partially Reconfigurable Systems

On-Chip Thermal Balancing using Dynamic Structural Adaptation of FPGA-Based Multi-task SoPCs for Space-Borne Applications

SoPC Self-Integration Mechanism for Seamless Architecture Adaptation to Stream Workload Variations

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