MULTICONF-10 2010 - International Conference on High Performance Computing Systems (HPCS-10)

The scope of the conference includes all areas of high performance computing.

The main topics include but will not be limited to:

Algorithms for High Performance Computing
Application Oriented High Performance Computing
Architectures and Systems for High Performance Computing
Distributed Computing
Parallel Computing Systems
Software and Middleware aspects of High Performance Computing

Detailed topics include but will not be limited to:

Agent and multi agent based applications
Architectures for ubiquitous and pervasive computing
Autonomous vehicles and robotics systems
Benchmarking and assessment
Bioinformatics and biocomputing
Brokering middleware
Causality and time
Cloud computing
Compilers
Computer supported decision making
Cooperative information systems and applications
Coordination, consensus and agreement
Data intensive supercomputing
Data mining and searching
Databases, repositories and applications
Distributed multimedia systems
Distributed objects and remote invocation
Distributed shared memory
Embedded and application-specific architectures
Enterprise and federated architectures
Enterprise based technologies
E-systems: ecommerce, e-business, e-sciences and e-learning
Fault tolerance and replication
Federated and legacy applications
File systems
Fine-grain parallelism and architectures
Granular computing and its applications
Grid and cluster computing
High performance architectures and Systems
High performance computing and education
High performance computing in digital signal, image processing and vision
High performance I/O
High performance interconnection networks
High performance monitoring & instrumentation
HLA, InfiniBand and related standards
Innovative high performance computing such as affective, autonomic and quantum
Instruction-level, thread-level and memory-level parallelism
Internet and web computing
Interprocess communication
Knowledge based systems
Languages for high performance computing
Large scale scientific computing
Large scale systems for computational sciences (biological, chemical, environmental, etc.)
Learning and intelligence algorithms
Libraries and programming environments
Load balancing and sharing
Markup languages and their applications
Message passing
Mobile and wireless applications
Modeling simulation and evaluation techniques
Multi-core architectures and support
Mutual exclusion, deadlock detection
Name services and naming
Nature inspired high performance computing architectures
Network and systems protocols
Network flow and congestion
Network, cell and security processors
Object oriented programming and design
Operating systems
Operating systems support
Parallel and distributed Computing and applications
Partitioning, mapping, and scheduling
Peer-to-peer architectures and networks
Power aware architectures
Query processing and information retrieval
Real-time and embedded parallel and distributed applications
Reconfigurable computing and FPGA Based architectures
Reliable parallel and distributed algorithms
Resource allocation, sharing and management
Routing, synchronization, consistency
Scalable computing
Security, authentication, access control
Sensor, broadband and high performance networks
Soft computing in high performance computing
Software development tools and support
Software monitoring and measurement
Transaction and concurrency control
Warehousing and storage
Web 2.0 infrastructure
Web semantics and ontologies
Web services