ICPE 2018
Date: Apr 09, 2018 12:00 am – Apr 13, 2018 12:00 pm
Location: Berlin, Germany
9th ACM/SPEC International Conference on Performance Engineering (ICPE 2018)
Sponsored by ACM SIGMETRICS, SIGSOFT, and SPEC RG
SCOPE AND TOPICS
The goal of the International Conference on Performance Engineering (ICPE) is to integrate theory and practice in the field of performance engineering by providing a forum for sharing ideas and experiences between industry and academia. Nowadays, complex systems of all types, like Web-based systems, data centers and cloud infrastructures, social networks, peer-to-peer, mobile and wireless systems, cyber-physical systems, the Internet of Things, real-time and embedded systems, have increasingly distributed and dynamic system architectures that provide high flexibility, however, also increase the complexity of managing end-to-end application performance.
ICPE brings together researchers and industry practitioners to share and present their experiences, discuss challenges, and report state-of-the-art and in-progress research on performance engineering of software and systems, including performance measurement, modeling, benchmark design, and run-time performance management. The focus is both on classical metrics such as response time, throughput, resource utilization, and (energy) efficiency, as well as on the relationship of such metrics to other system properties including but not limited to scalability, elasticity, availability, reliability, and security.
This year's main theme is “continuous performance assurance in agile delivery”.
Topics of interest include, but are not limited to:
Performance modeling of software
- Languages and ontologies
- Methods and tools
- Relationship/integration/tradeoffs with other QoS attributes
- Analytical, simulation and statistical modeling methodologies
- Model validation and calibration techniques
- Automatic model extraction
- Performance modeling and analysis tools
Performance and software development processes/paradigms
- Software performance patterns and anti-patterns
- Software/performance tool interoperability (models and data interchange formats)
- Performance-oriented design, implementation and configuration management
- Software Performance Engineering and Model-Driven Development
- Gathering, interpreting and exploiting software performance annotations and data
- System sizing and capacity planning techniques
- (Model-driven) Performance requirements engineering
- Relationship between performance and architecture
- Collaboration of development and operation (DevOps) for performance
- Performance and agile methods
- Performance in Service-Oriented Architectures (SOA)
- Performance of microservice architectures and containers
Performance measurement, monitoring and analysis
- Performance measurement and monitoring techniques
- Analysis of measured application performance data
- Application tracing and profiling
- Workload characterization techniques
- Experimental design
- Tools for performance testing, measurement, profiling and tuning
Benchmarking
- Performance metrics and benchmark suites
- Benchmarking methodologies
- Development of parameterizable, flexible benchmarks
- Benchmark workloads and scenarios
- Use of benchmarks in industry and academia
Run-time performance management
- Use of models at run-time
- Online performance prediction
- Autonomic resource management
- Utility-based optimization
- Capacity management
Power and performance, energy efficiency
- Power consumption models and management techniques
- Tradeoffs between performance and energy efficiency
- Performance-driven resource and power management
Performance modeling and evaluation in different environments and application domains
- Web-based systems, e-business, Web services
- Big data systems, deep-learning systems, and other data analytics systems
- Internet of Things
- Social networks
- Cyber-physical systems
- Industrial Internet (Industry 4.0)
- Virtualization and cloud computing
- Autonomous/adaptive systems
- Transaction-oriented systems
- Communication networks
- Parallel and distributed systems
- Embedded systems
- Multi-core systems
- Cluster and grid computing environments
- High performance computing
- Event-based systems
- Real-time and multimedia systems
- Low-latency systems
- * Peer-to-peer, mobile and wireless systems
All other topics related to performance of software and systems.
PROGRAM COMMITTEE (RESEARCH PAPERS)
- J. Nelson Amaral, University of Alberta, Canada
- Varsha Apte, IIT Bombay, India
- Alberto Avritzer, independent, USA
- Steffen Becker, University of Stuttgart, Germany
- Umesh Bellur, IIT Bombay, India
- Cor-Paul Bezemer, Queen’s University, Canada
- Andre B. Bondi, Software Performance and Scalability Consulting LLC, USA
- Giuliano Casale, Imperial College London, UK
- Lucy Cherkasova, HyTrust, USA
- Vittorio Cortellessa, Universita' dell'Aquila, Italy
- Vittoria de Nitto Personè, Università di Roma Tor Vergata, Italy
- Tadashi Dohi, Hiroshima University, Japan
- Wilhelm Hasselbring, Kiel University, Germany
- Evangelia Kalyvianaki, City University London, UK
- Samuel Kounev, University of Wuerzburg, Germany
- Anne Koziolek, Karlsruhe Institute of Technology, Germany
- Patrick Lee, The Chinese University of Hong Kong, Hong Kong
- Marin Litoiu, York University, Canada
- Catalina M. Lladó, Universitat Illes Balears, Spain
- Philipp Leitner, University of Zurich, Switzerland
- Paulo R. M. Maciel, Federal University of Pernambuco, Brazil
- Martina Maggio, Lund University, Sweden
- Andrea Marin, University of Venice, Italy
- Daniel Menasce, George Mason University, USA
- José Merseguer, Universidad de Zaragoza, Spain
- Ningfang Mi, Northeastern University, USA
- Raffaela Mirandola, Politecnico di Milano, Italy
- Juan F. Perez, Universidad del Rosario, Colombia
- Dorina Petriu, Carleton University, Canada
- Alma Riska, Network Appliances, USA
- Evgenia Smirni, College of William and Mary, USA
- Nigel Thomas, Newcastle University, UK
- Mirco Tribastone, IMT Institute for Advanced Studies, Italy
- Catia Trubiani, Gran Sasso Science Institute, Italy
- Petr Tuma, Charles University, Czech Republic
- Ana Lucia Varbanescu, University of Amsterdam, the Netherlands
- Enrico Vicario, University of Florence, Italy
- Murray Woodside, Carleton University, Canada
- Huaming Wu, Tianjin University, China
- Feng Yan, University of Nevada-Reno, USA
- Xiaoyun Zhu, Futurewei Technologies Inc., USA
PROGRAM COMMITTEE (INDUSTRY/EXPERIENCE PAPERS)
- Klaus-Dieter Lange, HP Enterprise, USA
- Meikel Poess, Oracle, USA
- Tilmann Rabl, TU Berlin, Germany
- Matthias Scholze, QMethods, USA
- Rekha Singhal, TCS, India
- Cloyce Spradling, Oracle, USA
- Alexander Wert, NovaTec, Germany
- Boris Zibitsker, BEZNext, USA
ORGANIZING COMMITTEE
General Chairs
* Will Knottenbelt, Imperial College, UK
* Katinka Wolter, FU Berlin, Germany
Research Program Chairs
* André van Hoorn, University of Stuttgart, Germany
* Manoj Nambiar, Tata Consultancy Services, India
Industry Program Chair
* Heiko Koziolek, ABB, Germany
Artifact Evaluation Chairs
* Wilhelm Hasselbring, Kiel University, Germany
* Petr Tuma, Charles University, Czech Republic
Tutorials Chairs
* Alma Dimnaku (Riska), Network Appliances, USA
* Andrea Marin, University of Venice, Italy
Workshops Chairs
* Eva Kalyvianaki, City University London, UK
* Yao-Min Chen, Oracle, USA
Posters and Demos Chair
* Marco Paolieri, University of Southern California, USA
Awards Chairs
* Lydia Chen, IBM Zurich, Switzerland
* John Murphy, UC Dublin, Ireland
Publicity Chairs
* Juan F. Perez, Universidad del Rosario, Colombia
* Huaming Wu, Tianjin University, China
Finance Chair
* Matt Forshaw, Newcastle University, UK
Publication Chair
* Vladimir Stankovic, City University London, UK
Web Site Chair
* Thomas F. Düllmann, University of Stuttgart, Germany
Submitted by Anonymous
on
9th ACM/SPEC International Conference on Performance Engineering (ICPE 2018)
Sponsored by ACM SIGMETRICS, SIGSOFT, and SPEC RG
SCOPE AND TOPICS
The goal of the International Conference on Performance Engineering (ICPE) is to integrate theory and practice in the field of performance engineering by providing a forum for sharing ideas and experiences between industry and academia. Nowadays, complex systems of all types, like Web-based systems, data centers and cloud infrastructures, social networks, peer-to-peer, mobile and wireless systems, cyber-physical systems, the Internet of Things, real-time and embedded systems, have increasingly distributed and dynamic system architectures that provide high flexibility, however, also increase the complexity of managing end-to-end application performance.
ICPE brings together researchers and industry practitioners to share and present their experiences, discuss challenges, and report state-of-the-art and in-progress research on performance engineering of software and systems, including performance measurement, modeling, benchmark design, and run-time performance management. The focus is both on classical metrics such as response time, throughput, resource utilization, and (energy) efficiency, as well as on the relationship of such metrics to other system properties including but not limited to scalability, elasticity, availability, reliability, and security.
This year's main theme is “continuous performance assurance in agile delivery”.
Topics of interest include, but are not limited to:
Performance modeling of software
- Languages and ontologies
- Methods and tools
- Relationship/integration/tradeoffs with other QoS attributes
- Analytical, simulation and statistical modeling methodologies
- Model validation and calibration techniques
- Automatic model extraction
- Performance modeling and analysis tools
Performance and software development processes/paradigms
- Software performance patterns and anti-patterns
- Software/performance tool interoperability (models and data interchange formats)
- Performance-oriented design, implementation and configuration management
- Software Performance Engineering and Model-Driven Development
- Gathering, interpreting and exploiting software performance annotations and data
- System sizing and capacity planning techniques
- (Model-driven) Performance requirements engineering
- Relationship between performance and architecture
- Collaboration of development and operation (DevOps) for performance
- Performance and agile methods
- Performance in Service-Oriented Architectures (SOA)
- Performance of microservice architectures and containers
Performance measurement, monitoring and analysis
- Performance measurement and monitoring techniques
- Analysis of measured application performance data
- Application tracing and profiling
- Workload characterization techniques
- Experimental design
- Tools for performance testing, measurement, profiling and tuning
Benchmarking
- Performance metrics and benchmark suites
- Benchmarking methodologies
- Development of parameterizable, flexible benchmarks
- Benchmark workloads and scenarios
- Use of benchmarks in industry and academia
Run-time performance management
- Use of models at run-time
- Online performance prediction
- Autonomic resource management
- Utility-based optimization
- Capacity management
Power and performance, energy efficiency
- Power consumption models and management techniques
- Tradeoffs between performance and energy efficiency
- Performance-driven resource and power management
Performance modeling and evaluation in different environments and application domains
- Web-based systems, e-business, Web services
- Big data systems, deep-learning systems, and other data analytics systems
- Internet of Things
- Social networks
- Cyber-physical systems
- Industrial Internet (Industry 4.0)
- Virtualization and cloud computing
- Autonomous/adaptive systems
- Transaction-oriented systems
- Communication networks
- Parallel and distributed systems
- Embedded systems
- Multi-core systems
- Cluster and grid computing environments
- High performance computing
- Event-based systems
- Real-time and multimedia systems
- Low-latency systems
- * Peer-to-peer, mobile and wireless systems
All other topics related to performance of software and systems.
PROGRAM COMMITTEE (RESEARCH PAPERS)
- J. Nelson Amaral, University of Alberta, Canada
- Varsha Apte, IIT Bombay, India
- Alberto Avritzer, independent, USA
- Steffen Becker, University of Stuttgart, Germany
- Umesh Bellur, IIT Bombay, India
- Cor-Paul Bezemer, Queen’s University, Canada
- Andre B. Bondi, Software Performance and Scalability Consulting LLC, USA
- Giuliano Casale, Imperial College London, UK
- Lucy Cherkasova, HyTrust, USA
- Vittorio Cortellessa, Universita' dell'Aquila, Italy
- Vittoria de Nitto Personè, Università di Roma Tor Vergata, Italy
- Tadashi Dohi, Hiroshima University, Japan
- Wilhelm Hasselbring, Kiel University, Germany
- Evangelia Kalyvianaki, City University London, UK
- Samuel Kounev, University of Wuerzburg, Germany
- Anne Koziolek, Karlsruhe Institute of Technology, Germany
- Patrick Lee, The Chinese University of Hong Kong, Hong Kong
- Marin Litoiu, York University, Canada
- Catalina M. Lladó, Universitat Illes Balears, Spain
- Philipp Leitner, University of Zurich, Switzerland
- Paulo R. M. Maciel, Federal University of Pernambuco, Brazil
- Martina Maggio, Lund University, Sweden
- Andrea Marin, University of Venice, Italy
- Daniel Menasce, George Mason University, USA
- José Merseguer, Universidad de Zaragoza, Spain
- Ningfang Mi, Northeastern University, USA
- Raffaela Mirandola, Politecnico di Milano, Italy
- Juan F. Perez, Universidad del Rosario, Colombia
- Dorina Petriu, Carleton University, Canada
- Alma Riska, Network Appliances, USA
- Evgenia Smirni, College of William and Mary, USA
- Nigel Thomas, Newcastle University, UK
- Mirco Tribastone, IMT Institute for Advanced Studies, Italy
- Catia Trubiani, Gran Sasso Science Institute, Italy
- Petr Tuma, Charles University, Czech Republic
- Ana Lucia Varbanescu, University of Amsterdam, the Netherlands
- Enrico Vicario, University of Florence, Italy
- Murray Woodside, Carleton University, Canada
- Huaming Wu, Tianjin University, China
- Feng Yan, University of Nevada-Reno, USA
- Xiaoyun Zhu, Futurewei Technologies Inc., USA
PROGRAM COMMITTEE (INDUSTRY/EXPERIENCE PAPERS)
- Klaus-Dieter Lange, HP Enterprise, USA
- Meikel Poess, Oracle, USA
- Tilmann Rabl, TU Berlin, Germany
- Matthias Scholze, QMethods, USA
- Rekha Singhal, TCS, India
- Cloyce Spradling, Oracle, USA
- Alexander Wert, NovaTec, Germany
- Boris Zibitsker, BEZNext, USA
ORGANIZING COMMITTEE
General Chairs
* Will Knottenbelt, Imperial College, UK
* Katinka Wolter, FU Berlin, Germany
Research Program Chairs
* André van Hoorn, University of Stuttgart, Germany
* Manoj Nambiar, Tata Consultancy Services, India
Industry Program Chair
* Heiko Koziolek, ABB, Germany
Artifact Evaluation Chairs
* Wilhelm Hasselbring, Kiel University, Germany
* Petr Tuma, Charles University, Czech Republic
Tutorials Chairs
* Alma Dimnaku (Riska), Network Appliances, USA
* Andrea Marin, University of Venice, Italy
Workshops Chairs
* Eva Kalyvianaki, City University London, UK
* Yao-Min Chen, Oracle, USA
Posters and Demos Chair
* Marco Paolieri, University of Southern California, USA
Awards Chairs
* Lydia Chen, IBM Zurich, Switzerland
* John Murphy, UC Dublin, Ireland
Publicity Chairs
* Juan F. Perez, Universidad del Rosario, Colombia
* Huaming Wu, Tianjin University, China
Finance Chair
* Matt Forshaw, Newcastle University, UK
Publication Chair
* Vladimir Stankovic, City University London, UK
Web Site Chair
* Thomas F. Düllmann, University of Stuttgart, Germany