The XT3 Catamount Virtual Node (CVN) implementation was based on the dual processor support in ASCI Red’s [1] Cougar Light Weight Kernel Operating System. That solution was limited to no more than 2 virtual nodes per physical node. This paper describes the design for extending Catamount to support more CPUs per node. It identifies the areas needing modification and the selected resolution. Some preliminary performance results are provided
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
As the performance gap between processors and main memory continues to widen, increasingly aggressiv...
With increasingly advanced and sophisticated computer technology today, especially on a PC and serve...
Catamount (XT3/Red Storm’s Light Weight Kernel) to support multiple CPUs per node on XT systems whil...
Catamount is designed to be a low overhead operating system for a parallel computing environment. Fu...
Improving the performance of future computing systems will be based upon the ability of increasing t...
As machine learning algorithms play an ever increasing role in today's technology, more demands are ...
Reconfigurable processing units promise to boost the performance of computational intensive applicat...
Personal computing hardware is becoming ever more complex with more cores being added. It is moving ...
Reconfigurable processing units promise to boost the performance of computational intensive applicat...
Even though virtual memory is largely understood, and implementations perform well, in a single core...
As transistor densities increase, it is becoming ever more difficult to gain significant performance ...
The growth of single core performance and energy efficiency have been stagnating for decades. Multic...
This paper proposes an approach to scaling UNIX-like oper-ating systems for many cores in a backward...
There’s no doubt that the fundamentals of computer programming were broken at the launch of the mu...
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
As the performance gap between processors and main memory continues to widen, increasingly aggressiv...
With increasingly advanced and sophisticated computer technology today, especially on a PC and serve...
Catamount (XT3/Red Storm’s Light Weight Kernel) to support multiple CPUs per node on XT systems whil...
Catamount is designed to be a low overhead operating system for a parallel computing environment. Fu...
Improving the performance of future computing systems will be based upon the ability of increasing t...
As machine learning algorithms play an ever increasing role in today's technology, more demands are ...
Reconfigurable processing units promise to boost the performance of computational intensive applicat...
Personal computing hardware is becoming ever more complex with more cores being added. It is moving ...
Reconfigurable processing units promise to boost the performance of computational intensive applicat...
Even though virtual memory is largely understood, and implementations perform well, in a single core...
As transistor densities increase, it is becoming ever more difficult to gain significant performance ...
The growth of single core performance and energy efficiency have been stagnating for decades. Multic...
This paper proposes an approach to scaling UNIX-like oper-ating systems for many cores in a backward...
There’s no doubt that the fundamentals of computer programming were broken at the launch of the mu...
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
As the performance gap between processors and main memory continues to widen, increasingly aggressiv...
With increasingly advanced and sophisticated computer technology today, especially on a PC and serve...