The relentless growth in size and complexity of semiconductor devices over the last decades continues to present new challenges to the electronic design community. Today, functional debugging is a bottleneck that jeopardizes the future growth of the industry as it can account for up to 30% of the overall design effort. To alleviate the manual debugging burden for industrial problems, scalable, practical and robust automated debugging solutions are required. This dissertation presents novel techniques and methodologies to bridge the gap between current capabilities of automated debuggers and the strict industry requirements. The contributions proposed leverage powerful advancements made in the formal method community, such as model checking...
Early closure to functional correctness of the final chip has become a crucial success factor in the...
As VLSI designs grow in complexity and size, errors become more frequent and difficult to track. Rec...
Growing design complexity has made functional debugging of application-specific integrated circuits ...
The relentless growth in size and complexity of semiconductor devices over the last decades continue...
Over the past three decades, the growing list of requirements for integrated circuits has continuall...
Over the past three decades, the growing list of requirements for integrated circuits has continuall...
The size and complexity of modern VLSI computer chips are growing at a rapid pace. Functional debugg...
The size and complexity of modern VLSI computer chips are growing at a rapid pace. Functional debugg...
With the growing size of modern integrated circuit designs, automated design tools have taken an imp...
With the growing size of modern integrated circuit designs, automated design tools have taken an imp...
Electronic devices make up a vital part of our lives. These are seen from mobiles, laptops, computer...
The dramatic increase in design complexity of modern circuits challenges our ability to verify their...
The dramatic increase in design complexity of modern circuits challenges our ability to verify their...
With the growing complexity of modern VLSI designs, design errors become increasingly common. Design...
Early closure to functional correctness of the final chip has become a crucial success factor in the...
Early closure to functional correctness of the final chip has become a crucial success factor in the...
As VLSI designs grow in complexity and size, errors become more frequent and difficult to track. Rec...
Growing design complexity has made functional debugging of application-specific integrated circuits ...
The relentless growth in size and complexity of semiconductor devices over the last decades continue...
Over the past three decades, the growing list of requirements for integrated circuits has continuall...
Over the past three decades, the growing list of requirements for integrated circuits has continuall...
The size and complexity of modern VLSI computer chips are growing at a rapid pace. Functional debugg...
The size and complexity of modern VLSI computer chips are growing at a rapid pace. Functional debugg...
With the growing size of modern integrated circuit designs, automated design tools have taken an imp...
With the growing size of modern integrated circuit designs, automated design tools have taken an imp...
Electronic devices make up a vital part of our lives. These are seen from mobiles, laptops, computer...
The dramatic increase in design complexity of modern circuits challenges our ability to verify their...
The dramatic increase in design complexity of modern circuits challenges our ability to verify their...
With the growing complexity of modern VLSI designs, design errors become increasingly common. Design...
Early closure to functional correctness of the final chip has become a crucial success factor in the...
Early closure to functional correctness of the final chip has become a crucial success factor in the...
As VLSI designs grow in complexity and size, errors become more frequent and difficult to track. Rec...
Growing design complexity has made functional debugging of application-specific integrated circuits ...
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