Combined X-ray, NMR, and Kinetic Analyses Reveal Uncommon Binding Characteristics of the Hepatitis C Virus NS3-NS4A Protease Inhibitor BI 201335

This paper addresses the modelling and validation of an evolvable hardware architecture which can be mapped on a 2D systolic structure implemented on commercial reconfigurable FPGAs. The adaptation capabilities of the architecture are exercised to validate its evolvability. The underlying proposal is the use of a library of reconfigurable components characterised by their partial bitstreams, which are used by the Evolutionary Algorithm to find a solution to a given task. Evolution of image noise filters is selected as the proof of concept application. Results show that computation speed of the resulting evolved circuit is higher than with the Virtual Reconfigurable Circuits approach, and this can be exploited on the evolution process by using dynamic reconfiguration.

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Self-Reconfigurable Evolvable Hardware System for Adaptive Image Processing

Salvador

Otero

Mora

et al. 2013

IEEE Trans. Comput.

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A fast Reconfigurable 2D HW core architecture on FPGAs for evolvable Self-Adaptive Systems

Otero

Salvador

Mora

et al. 2011

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Fault Tolerance Analysis and Self-Healing Strategy of Autonomous, Evolvable Hardware Systems

Salvador

Otero

Mora

et al. 2011

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Abstract-This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evolvable hardware system, which uses a combination of partial dynamic reconfiguration and an evolutionary algorithm (EA). It demonstrates that the system may self-recover from both transient and cumulative permanent faults. This self-adaptive system, based on a 2D array of 16 (4×4) Processing Elements (PEs), is tested with an image filtering application. Results show that it may properly recover from faults in up to 3 PEs, that is, more than 18% cumulative permanent faults. Two fault models are used for testing purposes, at PE and CLB levels. Two self-healing strategies are also introduced, depending on whether fault diagnosis is available or not. They are based on scrubbing, fitness evaluation, dynamic partial reconfiguration and in-system evolutionary adaptation. Since most of these adaptability features are already available on the system for its normal operation, resource cost for self-healing is very low (only some code additions in the internal microprocessor core).

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Accelerating the evolution of a systolic array-based evolvable hardware system

Mora

Torre

2018

Microprocessors and Microsystems

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Javier Mora

Evolvable 2D computing matrix model for intrinsic evolution in commercial FPGAs with native reconfiguration support

Self-Reconfigurable Evolvable Hardware System for Adaptive Image Processing

A fast Reconfigurable 2D HW core architecture on FPGAs for evolvable Self-Adaptive Systems

Fault Tolerance Analysis and Self-Healing Strategy of Autonomous, Evolvable Hardware Systems

Accelerating the evolution of a systolic array-based evolvable hardware system

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