6,131 research outputs found
Toward an optimal foundation architecture for optoelectronic computing .1. Regularly interconnected device planes
Cataloged from PDF version of article.By systematically examining the tree of possibilities for optoelectronic computing architectures and
offering arguments that allow one to prune suboptimal branches of this tree, I come to the conclusion that
electronic circuit planes interconnected optically according to regular connection patterns represent an
alternative that is reasonably close to the best possible, as defined by physical limitations. Thus I
propose that this foundation architecture should provide a basis for future research and development in
this area. © 1997 Optical Society of Americ
Online Permutation Routing in Partitioned Optical Passive Star Networks
This paper establishes the state of the art in both deterministic and
randomized online permutation routing in the POPS network. Indeed, we show that
any permutation can be routed online on a POPS network either with
deterministic slots, or, with high probability, with
randomized slots, where constant
. When , that we claim to be the
"interesting" case, the randomized algorithm is exponentially faster than any
other algorithm in the literature, both deterministic and randomized ones. This
is true in practice as well. Indeed, experiments show that it outperforms its
rivals even starting from as small a network as a POPS(2,2), and the gap grows
exponentially with the size of the network. We can also show that, under proper
hypothesis, no deterministic algorithm can asymptotically match its
performance
System data communication structures for active-control transport aircraft, volume 2
The application of communication structures to advanced transport aircraft are addressed. First, a set of avionic functional requirements is established, and a baseline set of avionics equipment is defined that will meet the requirements. Three alternative configurations for this equipment are then identified that represent the evolution toward more dispersed systems. Candidate communication structures are proposed for each system configuration, and these are compared using trade off analyses; these analyses emphasize reliability but also address complexity. Multiplex buses are recognized as the likely near term choice with mesh networks being desirable for advanced, highly dispersed systems
Diluting the Scalability Boundaries: Exploring the Use of Disaggregated Architectures for High-Level Network Data Analysis
Traditional data centers are designed with a rigid architecture of
fit-for-purpose servers that provision resources beyond the average workload in
order to deal with occasional peaks of data. Heterogeneous data centers are
pushing towards more cost-efficient architectures with better resource
provisioning. In this paper we study the feasibility of using disaggregated
architectures for intensive data applications, in contrast to the monolithic
approach of server-oriented architectures. Particularly, we have tested a
proactive network analysis system in which the workload demands are highly
variable. In the context of the dReDBox disaggregated architecture, the results
show that the overhead caused by using remote memory resources is significant,
between 66\% and 80\%, but we have also observed that the memory usage is one
order of magnitude higher for the stress case with respect to average
workloads. Therefore, dimensioning memory for the worst case in conventional
systems will result in a notable waste of resources. Finally, we found that,
for the selected use case, parallelism is limited by memory. Therefore, using a
disaggregated architecture will allow for increased parallelism, which, at the
same time, will mitigate the overhead caused by remote memory.Comment: 8 pages, 6 figures, 2 tables, 32 references. Pre-print. The paper
will be presented during the IEEE International Conference on High
Performance Computing and Communications in Bangkok, Thailand. 18 - 20
December, 2017. To be published in the conference proceeding
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