This paper presents the cloud infrastructure of the AEGLE project, that targets to integrate cloud technologies together with heterogeneous reconfigurable computing in large scale healthcare systems for Big Bio-Data analytics. AEGLEs engineering concept brings together the hot big-data engines with emerging acceleration technologies, putting the basis for person- alized and integrated health-care services, while also promoting related research activities. We introduce the design of AEGLE’s accelerated infrastructure along with the corresponding software and hardware acceleration stacks to support various big data analytics workloads showing that through effective resource containerization AEGLE’s cloud infrastructure is able to support high...
Radiatus 2 (Elastic Infrastructure for BigData Analysis in the Cloud) is a project funded by the Val...
Next-generation sequencing (NGS) technologies have made it possible to rapidly sequence the human ge...
Recent progress in high-throughput instrumentations has led to an astonishing growth in both volume ...
This paper presents the main directions of the AEGLE project, that targets to integrate cloud techno...
AEGLE project targets to build an innovative ICT solution addressing the whole data value chain for ...
The AEGLE project aims to advance integrated and personalized healthcare services, by innovatively h...
The AEGLE project aims to advance integrated and personalized healthcare services, by innovatively h...
In this paper, we present the design and analyze the performance-energy characteristics of a softwar...
This chapter describes the general architecture and functional components of the cloud-based big dat...
Part 7: New Methods and Tools for Big DataInternational audienceCloud computing consists of a set of...
In this paper, we present a research infrastructure, built within the Department of Excellence proje...
The emergence of cloud computing has made dynamic provisioning of elastic capacity to applications o...
With the advent of cloud computing, resizable scalable infrastructures for data processing is now av...
With exabytes of data being generated from genome sequencing, a whole new science behind genomic big...
This chapter describes a software architecture for processing big-data analytics considering the com...
Radiatus 2 (Elastic Infrastructure for BigData Analysis in the Cloud) is a project funded by the Val...
Next-generation sequencing (NGS) technologies have made it possible to rapidly sequence the human ge...
Recent progress in high-throughput instrumentations has led to an astonishing growth in both volume ...
This paper presents the main directions of the AEGLE project, that targets to integrate cloud techno...
AEGLE project targets to build an innovative ICT solution addressing the whole data value chain for ...
The AEGLE project aims to advance integrated and personalized healthcare services, by innovatively h...
The AEGLE project aims to advance integrated and personalized healthcare services, by innovatively h...
In this paper, we present the design and analyze the performance-energy characteristics of a softwar...
This chapter describes the general architecture and functional components of the cloud-based big dat...
Part 7: New Methods and Tools for Big DataInternational audienceCloud computing consists of a set of...
In this paper, we present a research infrastructure, built within the Department of Excellence proje...
The emergence of cloud computing has made dynamic provisioning of elastic capacity to applications o...
With the advent of cloud computing, resizable scalable infrastructures for data processing is now av...
With exabytes of data being generated from genome sequencing, a whole new science behind genomic big...
This chapter describes a software architecture for processing big-data analytics considering the com...
Radiatus 2 (Elastic Infrastructure for BigData Analysis in the Cloud) is a project funded by the Val...
Next-generation sequencing (NGS) technologies have made it possible to rapidly sequence the human ge...
Recent progress in high-throughput instrumentations has led to an astonishing growth in both volume ...