The torus-wrap mapping for dense matrix calculations on massively parallel computers
SIAM Journal on Scientific Computing
Fast sequential and parallel algorithms for association rule mining: a comparison
Fast sequential and parallel algorithms for association rule mining: a comparison
Tuning the performance of I/O-intensive parallel applications
Proceedings of the fourth workshop on I/O in parallel and distributed systems: part of the federated computing research conference
Requirements of I/O systems for parallel machines: an application-driven study
Requirements of I/O systems for parallel machines: an application-driven study
The Journal of Supercomputing
Compiler-based I/O prefetching for out-of-core applications
ACM Transactions on Computer Systems (TOCS)
Models of Parallel Applications with Large Computation and I/O Requirements
IEEE Transactions on Software Engineering
Titan: A High-Performance Remote Sensing Database
ICDE '97 Proceedings of the Thirteenth International Conference on Data Engineering
IBiCGStab Method on Bulk Synchronous Parallel Architectures
HPCS '02 Proceedings of the 16th Annual International Symposium on High Performance Computing Systems and Applications
ICA3PP '02 Proceedings of the Fifth International Conference on Algorithms and Architectures for Parallel Processing
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Common Language Infrastructure, or CLI, is a standardized virtual machine, which increasingly becomes popular on a wide range of platforms. In this paper we developed three I/O-intensive benchmarks for the CLI using various techniques. The first benchmark is designed in accordance with an application behavioural model that rebuilds the behavior of real world I/O-intensive applications. The second benchmark is a trace driven simulator that simulates five I/O-intensive applications. The third benchmark is a micro I/O-Intensive benchmark used to emulate a simple web server. In addition, the performances of the benchmarks are evaluated on the SSCLI. The results suggest that the CLI is a potential virtualmachine for I/O-intensive computing.