The VERTEX message passing system provided with NCUBE hypercubes is unsafe. The system can fail under high message loads. We have implemented a message passing system with the same “look and feel” as VERTEX but which is instead based upon the crystal_router running at clock interrupt time. The system is written mostly in C with a few bits of assembly code to run the DMA devices. This implies that safety checks (are the buffers full?) and complex error handling mechanisms can be easily implemented at the C level. A first version works, is safe, and is faster than VERTEX in the high volume limit, slower in the low volume case. At the very least, this system will be interesting for high message traffic applications, such as disk backup
The era of petascale computing brought machines with hundreds of thousands of processors. The next g...
A central problem in massively parallel computing is ef-ficiently routing data between processors. T...
Abstract—A look at Exascale reveals a future with multicore supercomputers that will inexorably expe...
In real-time computing applications, it is important to have parallel computing systems that not onl...
This thesis addresses the design of hypercube or hypercube-like message-passing computers that combi...
This paper describes a communication system designed to support highly asynchronous application or s...
Reliable communication in injured hypercubes with faulty links/nodes using directed safety levels is...
An abstract hypercube architecture made up of computing elements (nodes) has been simulated, in whic...
A new methodology named CALMANT (CC-cube Algorithms on Meshes and Tori) for mapping a type of algori...
Modern multicomputer architectures provide high-performance hardware support for the error-free deli...
Abstract: In this study, we‘ve analyzed and implemented three different algorithms developed for fau...
Abstract—The era of petascale computing brought machines with hundreds of thousands of processors. T...
In the world of message-passing distributed computing, reliable synchronous systems and asyn-chronou...
We examine the issue of running algorithms on a hypercube which has both node and edge faults, and w...
The author presents a new design, called fault-tolerant hypercube (FTH), obtained by augmenting the ...
The era of petascale computing brought machines with hundreds of thousands of processors. The next g...
A central problem in massively parallel computing is ef-ficiently routing data between processors. T...
Abstract—A look at Exascale reveals a future with multicore supercomputers that will inexorably expe...
In real-time computing applications, it is important to have parallel computing systems that not onl...
This thesis addresses the design of hypercube or hypercube-like message-passing computers that combi...
This paper describes a communication system designed to support highly asynchronous application or s...
Reliable communication in injured hypercubes with faulty links/nodes using directed safety levels is...
An abstract hypercube architecture made up of computing elements (nodes) has been simulated, in whic...
A new methodology named CALMANT (CC-cube Algorithms on Meshes and Tori) for mapping a type of algori...
Modern multicomputer architectures provide high-performance hardware support for the error-free deli...
Abstract: In this study, we‘ve analyzed and implemented three different algorithms developed for fau...
Abstract—The era of petascale computing brought machines with hundreds of thousands of processors. T...
In the world of message-passing distributed computing, reliable synchronous systems and asyn-chronou...
We examine the issue of running algorithms on a hypercube which has both node and edge faults, and w...
The author presents a new design, called fault-tolerant hypercube (FTH), obtained by augmenting the ...
The era of petascale computing brought machines with hundreds of thousands of processors. The next g...
A central problem in massively parallel computing is ef-ficiently routing data between processors. T...
Abstract—A look at Exascale reveals a future with multicore supercomputers that will inexorably expe...