Exact two-level minimization of hazard-free logic with multiple-input changes

Nowick,; Dill,

doi:10.1109/iccad.1992.279301

Cited by 43 publications

(13 citation statements)

References 19 publications

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“…In addition, the resulting combinational implementations, 2 level AND-OR and gC equations, may have more literals because of increased signal arrival orders of reshuffled transitions. According to all our testing cases, the gC implementations have a better chance to reduce the impact of these overhead since a large group of transitions fall in the "state holding" sets instead of on-set and off-set during the hazard-free minimization process [6].…”

Section: B Area Overheadmentioning

confidence: 99%

Removal of resetting of transitions for asynchronous FSM

Yang¹,

Tai²,

Hsu³

2007

TENCON 2007 - 2007 IEEE Region 10 Conference

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We present a reset-transition removal technique for four-phase burst-mode and extended burst-mode (BM/XBM) controllers, namely reshuffle the input and output bursts in a state by relocating them to its neighboring states.The illustrated examples of the reshuffled results demonstrate the improvement on the concurrency and the tradeoff as the consequence of the optimization. We further demonstrate the actual speedup about 20% of the reshuffled optimization on the eight benchmark circuits by using the FPGAs. The effectiveness of this reset-transition removal technique is impressively promising and applicable on the asynchronous controllers that are generated by BM/XBM synthesis tools. Moreover, a significant measurable improvement is still attainable by our reshuffling technique after the manual optimization is performed.

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Section: B Area Overheadmentioning

confidence: 99%

Removal of resetting of transitions for asynchronous FSM

Yang¹,

Tai²,

Hsu³

2007

TENCON 2007 - 2007 IEEE Region 10 Conference

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show abstract

“…This paper considers combinational circuits having arbitrary finite gate and wire delays (unbounded wire delay model [9]). A pure delay model is assumed as well (see [11]).…”

Section: Circuit Modelmentioning

confidence: 99%

“…If a transition has a function hazard, no implementation of the function is guaranteed to avoid a glitch during the transition, assuming arbitrary gate and wire delays [9,11]. Therefore, we consider only transitions which are free of function hazards.…”

Section: Function Hazardsmentioning

confidence: 99%

“…In synchronous design, the development and implementation of CAD packages has been critical to the success of modern automated digital design. In asynchronous design, much progress has been made, including tools for: exact hazard-free two-level logic minimization [9], optimal state assignment [2] and synthesis-for-testability [8]. However, these tools have been limited in handling large-scale designs.…”

Section: Introductionmentioning

confidence: 99%

“…The material of this section focuses on hazards and hazard-free logic minimization, and is taken from [2] and [9]. For simplicity, we focus on single-output functions.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Espresso-HF

Theobald

Nowick

1996

Proceedings of the 33rd Annual Conference on Design Automation Conference - DAC '96

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We present a new heuristic algorithm for hazard-free minimization of two-level logic. On nearly all examples, the algorithm finds an exactly minimum-cost cover. It also solves several problems which have not been previously solved using existing exact minimizers. We believe this is the first heuristic method based on Espresso to solve the general hazard-free two-level minimization problem, for multiple-input change transitions.

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Asynchronous Circuit Design: Motivation, Background, & Methods

Davis

Nowick

1995

Asynchronous Digital Circuit Design

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Exact two-level minimization of hazard-free logic with multiple-input changes

Cited by 43 publications

References 19 publications

Removal of resetting of transitions for asynchronous FSM

Removal of resetting of transitions for asynchronous FSM

Espresso-HF

Asynchronous Circuit Design: Motivation, Background, & Methods

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