<p>As technological advances enable computers to permeate many of our society's critical application domains (such as medicine, finances, transportation), the requirement for computers to always behave correctly becomes critical as well. Currently, ensuring that processor designs are correct represents a major challenge for the computing industry consuming the majority (up to 70%) of the resources allocated for the creation of a new processor. Looking towards the future, we see that with each new processor generation, even more transistors fit on the same chip area and more complex designs become possible, which makes it unlikely that the difficulty of the design verification problem will decrease by itself.</p><p>We believe that the diffic...
We study the applicability of the logic of Positive Equality with Uninterpreted Functions (PEUF) [2...
Our work addresses the challenge of scaling pre-silicon functional verification of hardware designs ...
The paper presents a sequence of three projects on design and formal verification of pipelined and s...
Over the past four decades microprocessors have come to be a vital and inseparable part of the moder...
We describe an efficient validity checker for the quantifier-free logic of equality with uninterpret...
Ensuring the functional correctness of hardware early in the design cycle is crucial for both econom...
Our quest for faster and efficient computing devices has led us to processor designs with enormous c...
Building a high-performance microprocessor presents many reliability challenges. De-signers must ver...
As the world increasingly depends on complex systems to transfer messages, store our data, and contr...
With increasing design complexity, verification becomes a more and more important aspect of the desi...
The study on verification trends in the semiconductor industry shows that the design complexity is i...
Building a high-petformance microprocessor presents many reliability challenges. Designers must veri...
We study the applicability of the logic of Positive Equality with Uninterpreted Functions (PEUF) [2]...
In the age of submicron technology a single chip may contain tens or even hundreds of millions trans...
Traditional fault-tolerant multi-threading architectures provide good fault tolerance by re-executin...
We study the applicability of the logic of Positive Equality with Uninterpreted Functions (PEUF) [2...
Our work addresses the challenge of scaling pre-silicon functional verification of hardware designs ...
The paper presents a sequence of three projects on design and formal verification of pipelined and s...
Over the past four decades microprocessors have come to be a vital and inseparable part of the moder...
We describe an efficient validity checker for the quantifier-free logic of equality with uninterpret...
Ensuring the functional correctness of hardware early in the design cycle is crucial for both econom...
Our quest for faster and efficient computing devices has led us to processor designs with enormous c...
Building a high-performance microprocessor presents many reliability challenges. De-signers must ver...
As the world increasingly depends on complex systems to transfer messages, store our data, and contr...
With increasing design complexity, verification becomes a more and more important aspect of the desi...
The study on verification trends in the semiconductor industry shows that the design complexity is i...
Building a high-petformance microprocessor presents many reliability challenges. Designers must veri...
We study the applicability of the logic of Positive Equality with Uninterpreted Functions (PEUF) [2]...
In the age of submicron technology a single chip may contain tens or even hundreds of millions trans...
Traditional fault-tolerant multi-threading architectures provide good fault tolerance by re-executin...
We study the applicability of the logic of Positive Equality with Uninterpreted Functions (PEUF) [2...
Our work addresses the challenge of scaling pre-silicon functional verification of hardware designs ...
The paper presents a sequence of three projects on design and formal verification of pipelined and s...