The massive data volumes acquired, simulated, processed and analyzed by globally distributed scientific collaborations continue to grow exponentially. One leading example is the LHC program, now at the start of its second three year data taking cycle, searching for new particles and interactions in a previously inaccessible range of energies, which has experienced a 70% growth in peak data transfer rates over the last 12 months alone. Other major science programs such as LSST and SKA, and other disciplines ranging from earth observation to genomics, are expected to have similar or great needs than the LHC program within the next decade. The development of new methods for fast, efficient and reliable data transfers over national and global d...
NDN is one instance of ICN, which is a cleanslate approach that promises to reduce inefficiencies in...
Scientific innovation continues to increase requirements for the computing and networking infrastru...
The LHC program has been successful in part due to the globally distributed computing resources used...
The massive data volumes acquired, simulated, processed and analyzed by globally distributed scienti...
Current scientific workflows such as Climate Science and High Energy Particle Physics (HEP), routine...
I describe a software-defined global system under development by Caltech and partner network teams i...
During Supercomputing 2012 (SC12), an international team of high energy physicists, computer scienti...
Wide area networks of increasing end-to-end capacity and capability are vital for every phase of hig...
In this paper we describe the current state of the art in equipment, software and methods for transf...
Scientific collaborations on a global scale, such as the LHC experiments at CERN [1], rely today on ...
The latest WAN infrastructure and Grid-based Web Services will be used to demonstrate movement and a...
High Energy Physics (HEP) experiments have greatly benefited from a strong relationship with Researc...
The popularity of cloud computing has increased in recent years due to its ability to offer a large ...
The ever-increasing scale of scientific data has become a sig-nificant challenge for researchers tha...
CERN’s Large Hadron Collider is producing several Petabytes of physics data per year. We present the...
NDN is one instance of ICN, which is a cleanslate approach that promises to reduce inefficiencies in...
Scientific innovation continues to increase requirements for the computing and networking infrastru...
The LHC program has been successful in part due to the globally distributed computing resources used...
The massive data volumes acquired, simulated, processed and analyzed by globally distributed scienti...
Current scientific workflows such as Climate Science and High Energy Particle Physics (HEP), routine...
I describe a software-defined global system under development by Caltech and partner network teams i...
During Supercomputing 2012 (SC12), an international team of high energy physicists, computer scienti...
Wide area networks of increasing end-to-end capacity and capability are vital for every phase of hig...
In this paper we describe the current state of the art in equipment, software and methods for transf...
Scientific collaborations on a global scale, such as the LHC experiments at CERN [1], rely today on ...
The latest WAN infrastructure and Grid-based Web Services will be used to demonstrate movement and a...
High Energy Physics (HEP) experiments have greatly benefited from a strong relationship with Researc...
The popularity of cloud computing has increased in recent years due to its ability to offer a large ...
The ever-increasing scale of scientific data has become a sig-nificant challenge for researchers tha...
CERN’s Large Hadron Collider is producing several Petabytes of physics data per year. We present the...
NDN is one instance of ICN, which is a cleanslate approach that promises to reduce inefficiencies in...
Scientific innovation continues to increase requirements for the computing and networking infrastru...
The LHC program has been successful in part due to the globally distributed computing resources used...