Pre-fabrication design verification and post-fabrication chip testing are two important stages in the product realization process. These two stages consume a large part of resources in the form of time, money, and engineering effort during the process [1]. Therefore, it is important to take into account the design verification (such as through formal verification) effort and chip testing effort when we design a system. This paper analyzes the impact on formal verification effort and testing effort due to adding different fault tolerance mechanisms to baseline systems. By comparing the experimental results of different designs, we conclude that re-execution (time redundancy) is the most efficient mechanism when considering formal verificatio...
Over the past three decades, the growing list of requirements for integrated circuits has continuall...
Components are mainly used in commercial software development to reduce time to market. While some e...
Formal Verification: An Essential Toolkit for Modern VLSI Design presents practical approaches for d...
AbstractDesign and manufacturing of present day Multi-Core microprocessors has to overcome major tec...
For software development projects with very high correctness requirements (including safety requirem...
This paper will discuss how we optimize our physical verification flow in our IC Design Department h...
The high degree of miniaturization in the electronics industry has been, for several years, a driver...
The high degree of miniaturization in the electronics industry has been, for several years, a driver...
In this paper we explore the specification and verification of VLSI designs. The paper focuses on ab...
Ensuring the functional correctness of hardware early in the design cycle is crucial for both econom...
Abstract. This paper reports on the experience gained in the MaFMeth project, which undertook a form...
The development process of digital integrated circuits is increasingly needing resources for design ...
Our work addresses the challenge of scaling pre-silicon functional verification of hardware designs ...
Functional Verification or Logical Simulation is an important phase in Digital Design Flow. It is to...
The role of automatic formal protocol verifica- tion in hardware design is considered. Principles ar...
Over the past three decades, the growing list of requirements for integrated circuits has continuall...
Components are mainly used in commercial software development to reduce time to market. While some e...
Formal Verification: An Essential Toolkit for Modern VLSI Design presents practical approaches for d...
AbstractDesign and manufacturing of present day Multi-Core microprocessors has to overcome major tec...
For software development projects with very high correctness requirements (including safety requirem...
This paper will discuss how we optimize our physical verification flow in our IC Design Department h...
The high degree of miniaturization in the electronics industry has been, for several years, a driver...
The high degree of miniaturization in the electronics industry has been, for several years, a driver...
In this paper we explore the specification and verification of VLSI designs. The paper focuses on ab...
Ensuring the functional correctness of hardware early in the design cycle is crucial for both econom...
Abstract. This paper reports on the experience gained in the MaFMeth project, which undertook a form...
The development process of digital integrated circuits is increasingly needing resources for design ...
Our work addresses the challenge of scaling pre-silicon functional verification of hardware designs ...
Functional Verification or Logical Simulation is an important phase in Digital Design Flow. It is to...
The role of automatic formal protocol verifica- tion in hardware design is considered. Principles ar...
Over the past three decades, the growing list of requirements for integrated circuits has continuall...
Components are mainly used in commercial software development to reduce time to market. While some e...
Formal Verification: An Essential Toolkit for Modern VLSI Design presents practical approaches for d...