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DIstributed Computing Environments (DICE) Team
We are a group of computer scientists and IT experts from the Department of Computer Science AGH and ACC Cyfronet AGH. We are a curiosity- and research-driven team, specializing in large-scale distributed computing, HPC, Web and Cloud technologies. We develop new methods, tools and environments and we apply these solutions in e-Science, healthcare and industrial domains.


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Projects with participation of Maciej Pawlik

PaaSage (2012-2016)

Paasage_logo_sPaaSage delivers an open and integrated platform to support model based lifecycle management of Cloud applications. The platform and the accompanying methodology allow model-based development, configuration, optimisation and deployment of existing and new applications, independently of the existing Cloud infrastructures. More ...

Sano (2019-2026)

Sano Centre will be a major driver for European advancement in rapidly growing field of computational medicine, developing sophisticated engineering methods for the prevention, diagnosis and treatment of disease, and meeting the overarching worldwide need for radically streamlined healthcare systems. More ...

PRIMAGE (2018-2022)

primage_logo.pngPRIMAGE proposes a cloud-based platform to support decision making in the clinical management of malignant solid tumours, offering predictive tools to assist diagnosis, prognosis, therapies choice and treatment follow up. More ...

PROCESS (2017-2020)

process-logo.pngThe PROCESS demonstrators will pave the way towards exascale data services that will accelerate innovation and maximise the benefits of these emerging data solutions. More ...

CECM Teaming for Excellence (2017-2018)

cecmCECM will develop a Business Case to establish in Poland Europe's first Centre for simulation-driven healthcade Decision Support. More ...

Gliomed (2017-2020)

GLIOMED_LOGO_TRANS_354px.pngGliomed will design and validate a novel liquid-biopsy method of glioma type detection in patients. More ...

EurValve (2016-2019)

Paasage_logo_sEurValve will implement, test and validate a modelling based decision support system (DSS) for aortic and mitral valve diseases that allows simulating, comparing and understanding the effects (outcomes) and risks of different treatment strategies. More ...

PLGrid Plus (2011-2014)

plgrid_plus

PLGrid Plus project served Polish scientific communities enabling extensive cooperation among them, as well as international cooperation in the scope of research activities in the area of ​​e-Science. Preparation of specific computing environments – so called domain grids – i.e., solutions, services and extended infrastructure (including software), tailored to the needs of different groups of scientists,was the most important task implemented within this 3-year project. The new services, developed within PLGrid Plus, provided a significant extension of the Polish computing infrastructure, which had been built since 2008 within the PL-Grid project. More ...

MAPPER (2010-2013)

MapperThe MAPPER project responded to the critical need by developing computational strategies, software and services for distributed multiscale simulations across disciplines, exploiting existing and evolving European e-Infrastructure. This project was driven by the computational needs of seven exemplary multiscale problems from a variety of disciplines including Systems Biology, Fusion, Physiology, Engineering and nano-Material Science. Mapper used and enhanced existing solutions to support the multiscale simulation community, building simulation systems such as GridSpace. More ...

PL-Grid (2009-2012)

pl-gridThe goal of the PL-Grid project was to provide the Polish scientific community with an IT supercomputing platform and a set of advanced tools to enable e-science research in various fields. This infrastructure is compatible with existing worldwide Grid frameworks. GridSpace2 is positioned as the basis for an advanced virtual laboratory environment for in-silico processing by Polish scientists, state authorities and crisis management teams. More ...

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