High Performance Computing (HPC) systems are critical. A single server/processor cannot handle the heavy computation needs of today’s applications. HPC systems are built out of increasing numbers of processors to solve these computation-intensive problems. Communication between machines is essential. These applications may consist of thousands of processes spread across machines coordinating to solve a specific large-scale problem. The critical component of these systems is the network that connects the servers and makes this collaboration between servers possible. The performance of the network has a significant impact on the application performance. To better understand the main issues and improve the communication performance in this the...
Traditionally, the microprocessor design has focused on the computational aspects of the problem at ...
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
Since the invention of the transistor, clock frequency increase was the primary method of improving ...
High Performance Computing (HPC) systems are critical. A single server/processor cannot handle the h...
Communication is a necessary but overhead inducing component of parallel programming. Its impact on ...
Data center applications consume the majority of today's compute cycles. As current computer systems...
Networks are the backbone of modern HPC systems. They serve as a critical piece of infrastructure, t...
Datacenter systems run myriad applications, which frequently communicate with each other and/or Inpu...
With the current continuation of Moore’s law and the presumed end of improved single core performanc...
Over the past decade, the modern datacenter has reshaped the computing landscape by providing a larg...
In recent years, massive growth in internet usage has spurred the emergence of complex large-scale n...
Over the past decade, the modern datacenter has reshaped the computing landscape by providing a larg...
This paper proposes a machine-learning (ML)-aided cognitive approach for effective bandwidth reconfi...
High Performance Distributed Computing (HPDC) is driven by the rapid advance of two related technolo...
The emergence of high speed networks and the proliferation of high performance workstations have att...
Traditionally, the microprocessor design has focused on the computational aspects of the problem at ...
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
Since the invention of the transistor, clock frequency increase was the primary method of improving ...
High Performance Computing (HPC) systems are critical. A single server/processor cannot handle the h...
Communication is a necessary but overhead inducing component of parallel programming. Its impact on ...
Data center applications consume the majority of today's compute cycles. As current computer systems...
Networks are the backbone of modern HPC systems. They serve as a critical piece of infrastructure, t...
Datacenter systems run myriad applications, which frequently communicate with each other and/or Inpu...
With the current continuation of Moore’s law and the presumed end of improved single core performanc...
Over the past decade, the modern datacenter has reshaped the computing landscape by providing a larg...
In recent years, massive growth in internet usage has spurred the emergence of complex large-scale n...
Over the past decade, the modern datacenter has reshaped the computing landscape by providing a larg...
This paper proposes a machine-learning (ML)-aided cognitive approach for effective bandwidth reconfi...
High Performance Distributed Computing (HPDC) is driven by the rapid advance of two related technolo...
The emergence of high speed networks and the proliferation of high performance workstations have att...
Traditionally, the microprocessor design has focused on the computational aspects of the problem at ...
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
Since the invention of the transistor, clock frequency increase was the primary method of improving ...