The scope of this topic includes, but is not limited to, reliable and reconfigurable system development and optimization, practical application mechanisms and use cases that compensate reliability issues, such as aging, variability and temperature, reconfigurable systems and applications, static and dynamic reconfiguration techniques, context-aware applications and self-adaptive architectures.
Including also diagnosis, failure mode analysis, debug and post-silicon validation challenges.Areas of interest include methods, tools, methodologies and development environments. Singlebörse gifhorn Emphasis will also be on model-based design and verification, embedded software platforms, software compilation and integration, real-time systems, cyber-physical systems, networked and dependable systems.Target systems are massively parallel (super) computers, 2D/3D many-core systems, high performance computing clusters, data centers, cloud systems and cyber-physical systems.Topics of interest include, but are not limited to: software architectures for energy-efficient computing, virtualization, energy-efficient memory, processor, or communication architectures including non-volatile memory architectures and their use as storage components in datacenters, heterogeneous computing, resource management techniques including adaptive/learning-based methods, innovative data-center management strategies, big-data management, data centers powered by renewable energy sources, and data centers in smart-grids.
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Application design experiences for communication, multimedia and consumer systems such as smartphones, smart-books/tablets including digital integrated circuit design of flexible baseband processing systems, Intellectual Properties for wireless communication, design challenges for software-defined/cognitive radio systems; embedded systems design in the field of audio, video and computer vision domains; Application Specific Processors (ASP), Digital Signal Processors (DSP), Multi-Processor Systems on Chip (MPSo C) and Network on Chip (No C) designs for these domains.Design experiences for automotive systems, smart energy systems, energy scavenging and harvesting for embedded systems, and related applications.The track’s focus includes significant improvements on existing design methods and tools as well as forward-looking approaches to model and design future system architectures, design flows, and environments. dating for par Sorø Track Chair: Ayse Kivilcim Coskun, Boston University, US, Contact Ayse Kivilcim Coskun Topics Modeling and specification methodologies for complex HW-SW systems; (formal) models of computation and their (static) analysis; modeling and analysis of functional and non-functional system properties; concurrency models; multi-domain/multi-criteria specifications and models; application and workload models; requirements engineering; system-level modeling and simulation of multi- and many-core So Cs; Transaction Level Modeling (TLM) and model refinement; modeling of system adaptivity; system modeling and specification languages; model-driven engineering; meta-modeling; executable specifications; specification driven design and validation flows.Combinational and sequential synthesis for deep-submicron circuits; data structures for synthesis; technology mapping; performance and timing-driven synthesis; combined logic synthesis and layout design and characterization, statistical timing analysis and closure; hierarchical and non-hierarchical controller synthesis; methods for FSM optimization, synthesis and analysis; asynchronous and mixed synchronous/asynchronous circuits; FPGA synthesis; arithmetic circuits; floorplanning; automatic place and route; interconnect- and performance-driven layout; process technology developments.
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Parasitic and variation-aware extraction for on-chip interconnect and passives; Macro-modeling, behavioral and reduced order modeling; Modeling and analysis of noise due to electromagnetic interaction of signal, power/ground and substrate.
This includes analogue and mixed-signal integrated circuits, micro-electromechanical systems, high voltage structures, integrated sensors and transducers, RF architectures, in-vehicle networks, systems for electric vehicles, networks of systems (including car-to-car and car-to-infrastructure networks), and innovative concepts for power distribution, energy storage, and grid monitoring.
Finally, topics of interest are also hardware solutions for run-time system management, including self-diagnostics and repair, energy generation, energy saving, novel energy harvesting, battery management, renewable energy subsystems, and optimization of system energy efficiency.
Methods, techniques and architectures for counteracting variability of digital circuits and systems due to manufacturing, thermal or aging effects; design and run-time thermal, variability and reliability management of So Cs and multi-core platforms (both at hardware and software level); modeling and optimization approaches for manufacturing and temperature variations and degradation mechanisms in emerging 3D integration and manufacturing technologies.
Reconfigurable computing platforms and architectures; heterogeneous platforms (FPGA/GPU/CPU); reconfigurable processors; reconfigurable computing for high performance and data centers; statically and dynamically reconfigurable and reprogrammable systems and components; FPGA architectures and FPGA circuit design; design methods and tools for reconfigurable computing and communication systems.