This chapter summarizes what we have learned in the past decade of research into extremely high throughput networks. Such networks are colloquially referred to as Gigabit Networks in reference to the billion bit per second throughput regime they now operate in. The engineering challenges are in the integration of fast transmission systems and high-performance engineering workstations
Modern massively parallel computers are built from commodity processors and memories that are used i...
This brief paper outlines our strategies for providing a hardware and software solution to interfaci...
The growth of the Internet has enabled it to become a critical component used by businesses, governm...
A major goal of the host interface architecture which has been developed at UPenn is to be sufficien...
AURORA is one of five U.S. networking testbeds charged with exploring applications of, and technolog...
There are two complementary trends in the computer and communications fields. Increasing processor p...
Computer networks must become faster as the equipment that is being interconnected increases in powe...
Massive amounts of data are passed over public networks. There is a need for network administrators ...
The goal of this study is to investigate system bottlenecks for high bandwidth applications and how ...
Many applications envisioned for ultra-high-speed networks require cryptographic transformations for...
The last few years have seen network data rates skyrocket from a few Mbps to a Gbps or more. However...
This paper argues that workstation host interfaces and operating systems are a crucial element in ac...
In 1993, APRA funded a major program at Washingotn University to create gigabit networking technolog...
AURORA is one of five U.S. networking testbeds charged with exploring applications of, and technolog...
The High-Performance Computing Initiative from the White House Office of Science and Technology Poli...
Modern massively parallel computers are built from commodity processors and memories that are used i...
This brief paper outlines our strategies for providing a hardware and software solution to interfaci...
The growth of the Internet has enabled it to become a critical component used by businesses, governm...
A major goal of the host interface architecture which has been developed at UPenn is to be sufficien...
AURORA is one of five U.S. networking testbeds charged with exploring applications of, and technolog...
There are two complementary trends in the computer and communications fields. Increasing processor p...
Computer networks must become faster as the equipment that is being interconnected increases in powe...
Massive amounts of data are passed over public networks. There is a need for network administrators ...
The goal of this study is to investigate system bottlenecks for high bandwidth applications and how ...
Many applications envisioned for ultra-high-speed networks require cryptographic transformations for...
The last few years have seen network data rates skyrocket from a few Mbps to a Gbps or more. However...
This paper argues that workstation host interfaces and operating systems are a crucial element in ac...
In 1993, APRA funded a major program at Washingotn University to create gigabit networking technolog...
AURORA is one of five U.S. networking testbeds charged with exploring applications of, and technolog...
The High-Performance Computing Initiative from the White House Office of Science and Technology Poli...
Modern massively parallel computers are built from commodity processors and memories that are used i...
This brief paper outlines our strategies for providing a hardware and software solution to interfaci...
The growth of the Internet has enabled it to become a critical component used by businesses, governm...