Robert Damiano scite author profile

Robert Damiano

4Publications

149Citation Statements Received

36Citation Statements Given

How they've been cited

175

148

How they cite others

Affiliations

Philips (United States), Synopsys (Switzerland), IBM Research - Thomas J. Watson Research Center

Publications

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Formal property verification by abstraction refinement with formal, simulation and hybrid engines

Wang

Long

et al. 2001

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We present RFN, a formal property verification tool based on abstraction refinement. Abstraction refinement is a strategy for property verification. It iteratively refines an abstract model to better approximate the behavior of the original design in the hope that the abstract model alone will provide enough evidence to prove or disprove the property.However, previous work on abstraction refinement was only demonstrated on designs with up to 500 registers. We developed RFN to verify real-world designs that may contain thousands of registers. RFN differs from the previous work in several ways. First, instead of relying on a single engine, RFN employs multiple formal verification engines, including a BDD-ATPG hybrid engine and a conventional BDD-based fixpoint engine, for finding error traces or proving properties on the abstract model. Second, RFN uses a novel two-phase process involving 3-valued simulation and sequential ATPG to determine how to refine the abstract model. Third, RFN avoids the weakness of other abstraction-refinement algorithms ---finding error traces on the original design, by utilizing the error trace of the abstract model to guide sequential ATPG to find an error trace on the original design.We implemented and applied a prototype of RFN to verify various properties of real-world RTL designs containing approximately 5,000 registers, which represents an order of magnitude improvement over previous results. On these designs, we successfully proved a few properties and discovered a design violation.

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Real-time infection prediction with wearable physiological monitoring and AI to aid military workforce readiness during COVID-19

Conroy

Silva

Mehraei

et al. 2022

Sci Rep

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Infectious threats, like the COVID-19 pandemic, hinder maintenance of a productive and healthy workforce. If subtle physiological changes precede overt illness, then proactive isolation and testing can reduce labor force impacts. This study hypothesized that an early infection warning service based on wearable physiological monitoring and predictive models created with machine learning could be developed and deployed. We developed a prototype tool, first deployed June 23, 2020, that delivered continuously updated scores of infection risk for SARS-CoV-2 through April 8, 2021. Data were acquired from 9381 United States Department of Defense (US DoD) personnel wearing Garmin and Oura devices, totaling 599,174 user-days of service and 201 million hours of data. There were 491 COVID-19 positive cases. A predictive algorithm identified infection before diagnostic testing with an AUC of 0.82. Barriers to implementation included adequate data capture (at least 48% data was needed) and delays in data transmission. We observe increased risk scores as early as 6 days prior to diagnostic testing (2.3 days average). This study showed feasibility of a real-time risk prediction score to minimize workforce impacts of infection.

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Guiding SAT Diagnosis with Tree Decompositions

Bjesse

Kukula

Damiano

et al. 2004

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VLSI logic and fault simulation on general-purpose parallel computers

Mueller-Thuns

Saab

Damiano

et al. 1993

IEEE Trans. Comput.-Aided Des. Integr. Circuits Syst.

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Robert Damiano

Formal property verification by abstraction refinement with formal, simulation and hybrid engines

Real-time infection prediction with wearable physiological monitoring and AI to aid military workforce readiness during COVID-19

Guiding SAT Diagnosis with Tree Decompositions

VLSI logic and fault simulation on general-purpose parallel computers

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