Applying traffic merging to datacenter networks
Proceedings of the 3rd International Conference on Future Energy Systems: Where Energy, Computing and Communication Meet
DeTail: reducing the flow completion time tail in datacenter networks
Proceedings of the ACM SIGCOMM 2012 conference on Applications, technologies, architectures, and protocols for computer communication
DeTail: reducing the flow completion time tail in datacenter networks
ACM SIGCOMM Computer Communication Review - Special october issue SIGCOMM '12
PAST: scalable ethernet for data centers
Proceedings of the 8th international conference on Emerging networking experiments and technologies
Optimal networks from error correcting codes
ANCS '13 Proceedings of the ninth ACM/IEEE symposium on Architectures for networking and communications systems
Information-Knowledge-Systems Management
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Datacenter networks provide the communication substrate for large parallel computer systems that form the ecosystem for high performance computing (HPC) systems and modern Internet applications. The design of new datacenter networks is motivated by an array of applications ranging from communication intensive climatology, complex material simulations and molecular dynamics to such Internet applications as Web search, language translation, collaborative Internet applications, streaming video and voice-over-IP. For both Supercomputing and Cloud Computing the network enables distributed applications to communicate and interoperate in an orchestrated and efficient way. This book describes the design and engineering tradeoffs of datacenter networks. It describes interconnection networks from topology and network architecture to routing algorithms, and presents opportunities for taking advantage of the emerging technology trends that are influencing router microarchitecture. With the emergence of "many-core" processor chips, it is evident that we will also need "many-port" routing chips to provide a bandwidth-rich network to avoid the performance limiting effects of Amdahl's Law. We provide an overview of conventional topologies and their routing algorithms and show how technology, signaling rates and cost-effective optics are motivating new network topologies that scale up to millions of hosts. The book also provides detailed case studies of two high performance parallel computer systems and their networks. Table of Contents: Introduction / Background / Topology Basics / High-Radix Topologies / Routing / Scalable Switch Microarchitecture / System Packaging / Case Studies / Closing Remarks