103 research outputs found
Efficient Intra-Rack Resource Disaggregation for HPC Using Co-Packaged DWDM Photonics
The diversity of workload requirements and increasing hardware heterogeneity
in emerging high performance computing (HPC) systems motivate resource
disaggregation. Resource disaggregation allows compute and memory resources to
be allocated individually as required to each workload. However, it is unclear
how to efficiently realize this capability and cost-effectively meet the
stringent bandwidth and latency requirements of HPC applications. To that end,
we describe how modern photonics can be co-designed with modern HPC racks to
implement flexible intra-rack resource disaggregation and fully meet the bit
error rate (BER) and high escape bandwidth of all chip types in modern HPC
racks. Our photonic-based disaggregated rack provides an average application
speedup of 11% (46% maximum) for 25 CPU and 61% for 24 GPU benchmarks compared
to a similar system that instead uses modern electronic switches for
disaggregation. Using observed resource usage from a production system, we
estimate that an iso-performance intra-rack disaggregated HPC system using
photonics would require 4x fewer memory modules and 2x fewer NICs than a
non-disaggregated baseline.Comment: 15 pages, 12 figures, 4 tables. Published in IEEE Cluster 202
Emerging research directions in computer science : contributions from the young informatics faculty in Karlsruhe
In order to build better human-friendly human-computer interfaces,
such interfaces need to be enabled with capabilities to perceive
the user, his location, identity, activities and in particular his interaction
with others and the machine. Only with these perception capabilities
can smart systems ( for example human-friendly robots or smart environments) become posssible. In my research I\u27m thus focusing on the
development of novel techniques for the visual perception of humans and
their activities, in order to facilitate perceptive multimodal interfaces,
humanoid robots and smart environments. My work includes research
on person tracking, person identication, recognition of pointing gestures,
estimation of head orientation and focus of attention, as well as
audio-visual scene and activity analysis. Application areas are humanfriendly
humanoid robots, smart environments, content-based image and
video analysis, as well as safety- and security-related applications. This
article gives a brief overview of my ongoing research activities in these
areas
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