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HPCC
2009
Springer
2009
Springer
A Quantitative Study of Memory System Interference in Chip Multiprocessor Architectures
—The potential for destructive interference between running processes is increased as Chip Multiprocessors (CMPs) share more on-chip resources. We believe that understanding the nature of memory system interference is vital to achieve good fairness/complexity/performance trade-offs in CMPs. Our goal in this work is to quantify the latency penalties due to interference in all hardware-controlled, shared units (i.e. the onchip interconnect, shared cache and memory bus). To achieve this, we simulate a wide variety of realistic CMP architectures. In particular, we vary the number of cores, interconnect topology, shared cache size and off-chip memory bandwidth. We observe that interference in the off-chip memory bus accounts for between 63% and 87% of the total interference impact while the impact of cache capacity interference can be lower than indicated by previous studies (between 5% and 32% of the total impact). In addition, as much as 11% of the total impact can be due to uncontrolle...
Real-time TrafficDestructive Interference | Distributed And Parallel Computing | HPCC 2009 | Memory Bus | Total Interference Impact |
| Added | 25 Jul 2010 |
| Updated | 25 Jul 2010 |
| Type | Conference |
| Year | 2009 |
| Where | HPCC |
| Authors | Magnus Jahre, Marius Grannæs, Lasse Natvig |
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