AbstractWe present the first implementation of a distributed clock generation scheme for Systems-on-Chip that recovers from an unbounded number of arbitrary transient faults despite a large number of arbitrary permanent faults. We devise self-stabilizing hardware building blocks and a hybrid synchronous/asynchronous state machine enabling metastability-free transitions of the algorithm's states. We provide a comprehensive modeling approach that permits to prove, given correctness of the constructed low-level building blocks, the high-level properties of the synchronization algorithm (which have been established in a more abstract model). We believe this approach to be of interest in its own right, since this is the first technique permittin...
Abstract:- This paper presents methods for designing totally self-checking Mealy type synchronous se...
Very large-scale integrated (VLSI) hardware designs can be seen as distributed systems at several le...
This paper presents a shared-memory self-stabilizing failure detector, asynchronous consensus and re...
Today’s hardware technology presents a new challenge in designing robust systems. Deep submicron VLS...
Abstract—We present concept and implementation of a self-stabilizing Byzantine fault-tolerant distri...
Today’s hardware technology presents a new challenge in designing robust systems. Deep submicron VLS...
Fault-tolerant clocking schemes become inevitable when it comes to highly-reliable chip designs. Bec...
Abstract. The advances of deep submicron VLSI technology pose new challenges in designing robust sys...
I. MOTIVATION Accommodating billions of transistors on a single die, VLSI technology has reached a s...
This paper presents the mechanical verification of a simplified model of a rapid Byzantine-fault-tol...
Embedded distributed systems have become an integral part of safety-critical computing applications,...
Abstract—In this paper, we show how to build synchronized clocks of arbitrary size atop of existing ...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
Abstract:- This paper presents methods for designing totally self-checking Mealy type synchronous se...
Abstract:- This paper presents methods for designing totally self-checking Mealy type synchronous se...
Very large-scale integrated (VLSI) hardware designs can be seen as distributed systems at several le...
This paper presents a shared-memory self-stabilizing failure detector, asynchronous consensus and re...
Today’s hardware technology presents a new challenge in designing robust systems. Deep submicron VLS...
Abstract—We present concept and implementation of a self-stabilizing Byzantine fault-tolerant distri...
Today’s hardware technology presents a new challenge in designing robust systems. Deep submicron VLS...
Fault-tolerant clocking schemes become inevitable when it comes to highly-reliable chip designs. Bec...
Abstract. The advances of deep submicron VLSI technology pose new challenges in designing robust sys...
I. MOTIVATION Accommodating billions of transistors on a single die, VLSI technology has reached a s...
This paper presents the mechanical verification of a simplified model of a rapid Byzantine-fault-tol...
Embedded distributed systems have become an integral part of safety-critical computing applications,...
Abstract—In this paper, we show how to build synchronized clocks of arbitrary size atop of existing ...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
Abstract:- This paper presents methods for designing totally self-checking Mealy type synchronous se...
Abstract:- This paper presents methods for designing totally self-checking Mealy type synchronous se...
Very large-scale integrated (VLSI) hardware designs can be seen as distributed systems at several le...
This paper presents a shared-memory self-stabilizing failure detector, asynchronous consensus and re...