I have designed and implemented a system for the multilevel verification of synchronous MOS VLSI circuits. The system, called Silica Pithecus, accepts the schematic of an MOS circuit and a specification of the circuit's intended digital behavior. Silica Pithecus determines if the circuit meets its specification. If the circuit fails to meet its specification Silica Pithecus returns to the designer the reason for the failure. Unlike earlier verifiers which modelled primitives (e.g., transistors) as unidirectional digital devices, Silica Pithecus models primitives more realistically. Transistors are modelled as bidirectional devices of varying resistances, and nodes are modelled as capacitors. Silica Pithecus operates hierarc...
textThe task of checking whether a circuit implementation satisfies an abstract specification, prio...
An approach is described to the specification and verification of digital systems implemented wholly...
Ternary system modeling involves extending the traditional set of binary values {01} with a third va...
Abstract I Distribution Unlimited I have designed and implemented a system for the multilevel verifi...
The development of a theoretical basis for a technology-independent, false-error free, hierarchical ...
We present a hierarchical methodology for ensuring functionally correct VLSI designs. This methodolo...
A logic simulator can prove the correctness of a digital circuit when it can be shown that only circ...
This paper presents a method for the verification of speed-independent circuits. The main contributi...
The program MOSSYM simulates the behavior of a MOS circuit represented as a switch-level network sym...
A transistor level representation for VLSI circuits is presented. This representation is simple but ...
Formal verification methods provide a way to prove that a circuit structure correctly implements its...
Systolic circuits have drawn considerable attention as a means of implementing parallel algorithms i...
technical reportThis thesis addresses the issues related to the symbolic simulation-based verificati...
Based on a hierarchical verification methodology, we present an arithmetic circuit verifier ACV, in...
In this paper we explore the specification and verification of VLSI designs. The paper focuses on ab...
textThe task of checking whether a circuit implementation satisfies an abstract specification, prio...
An approach is described to the specification and verification of digital systems implemented wholly...
Ternary system modeling involves extending the traditional set of binary values {01} with a third va...
Abstract I Distribution Unlimited I have designed and implemented a system for the multilevel verifi...
The development of a theoretical basis for a technology-independent, false-error free, hierarchical ...
We present a hierarchical methodology for ensuring functionally correct VLSI designs. This methodolo...
A logic simulator can prove the correctness of a digital circuit when it can be shown that only circ...
This paper presents a method for the verification of speed-independent circuits. The main contributi...
The program MOSSYM simulates the behavior of a MOS circuit represented as a switch-level network sym...
A transistor level representation for VLSI circuits is presented. This representation is simple but ...
Formal verification methods provide a way to prove that a circuit structure correctly implements its...
Systolic circuits have drawn considerable attention as a means of implementing parallel algorithms i...
technical reportThis thesis addresses the issues related to the symbolic simulation-based verificati...
Based on a hierarchical verification methodology, we present an arithmetic circuit verifier ACV, in...
In this paper we explore the specification and verification of VLSI designs. The paper focuses on ab...
textThe task of checking whether a circuit implementation satisfies an abstract specification, prio...
An approach is described to the specification and verification of digital systems implemented wholly...
Ternary system modeling involves extending the traditional set of binary values {01} with a third va...