We analyze an Alpha 21264-like Globally–Asynchronous, Locally–Synchronous (GALS) processor organized as a Multiple Clock Domain (MCD) microarchitecture and identify the architectural features of the processor that influence the limited performance degradation measured. We show that the out-oforder superscalar execution features of a processor, which allow traditional instruction execution latency to be hidden, are the same features that reduce the performance degradation impact of the synchronization costs of an MCD processor. In the case of our Alpha 21264-like processor, up to 94% of the MCD synchronization delays are hidden and do not impact overall performance. In addition, we show that by adding out-of-order superscalar execution capab...
Abstract — This paper presents methods for addressing two sources of variability in the context of m...
In this paper, we investigate the problem of contention and loss of predictability in modern microco...
Today's high performance processors operate in the GHz frequency range and dissipate approximat...
We analyze an Alpha 21264-like Globally–Asynchronous, Locally–Synchronous (GALS) processor organized...
Microprocessors are traditionally designed to provide “best overall” performance across a wide range...
Journal ArticleAs clock frequency increases and feature size decreases, clock distribution and wire...
Microprocessors are traditionally designed to provide "best overall" performance across a ...
In this paper, we present a clustered, multiple-clock domain (CMCD) microarchitecture that combines ...
Multiple clock domains is one solution to the increasing problem of propagating the clock signal acr...
Several studies have demonstrated that out-of-order execution processors may not be the most adequat...
The increasing hardware complexity of dynamically scheduled superscalar processors may compromise th...
Journal ArticleModern superscalar processors use wide instruction issue widths and out-of-order exe...
Ever shrinking device sizes and innovative micro-architectural and circuit design techniques have ma...
The pursuit of secure computation has always featured a tension between performance and security. Se...
Journal ArticleClustered microarchitectures are an attractive alternative to large monolithic super...
Abstract — This paper presents methods for addressing two sources of variability in the context of m...
In this paper, we investigate the problem of contention and loss of predictability in modern microco...
Today's high performance processors operate in the GHz frequency range and dissipate approximat...
We analyze an Alpha 21264-like Globally–Asynchronous, Locally–Synchronous (GALS) processor organized...
Microprocessors are traditionally designed to provide “best overall” performance across a wide range...
Journal ArticleAs clock frequency increases and feature size decreases, clock distribution and wire...
Microprocessors are traditionally designed to provide "best overall" performance across a ...
In this paper, we present a clustered, multiple-clock domain (CMCD) microarchitecture that combines ...
Multiple clock domains is one solution to the increasing problem of propagating the clock signal acr...
Several studies have demonstrated that out-of-order execution processors may not be the most adequat...
The increasing hardware complexity of dynamically scheduled superscalar processors may compromise th...
Journal ArticleModern superscalar processors use wide instruction issue widths and out-of-order exe...
Ever shrinking device sizes and innovative micro-architectural and circuit design techniques have ma...
The pursuit of secure computation has always featured a tension between performance and security. Se...
Journal ArticleClustered microarchitectures are an attractive alternative to large monolithic super...
Abstract — This paper presents methods for addressing two sources of variability in the context of m...
In this paper, we investigate the problem of contention and loss of predictability in modern microco...
Today's high performance processors operate in the GHz frequency range and dissipate approximat...