2,289 research outputs found
Parallelism-Aware Memory Interference Delay Analysis for COTS Multicore Systems
In modern Commercial Off-The-Shelf (COTS) multicore systems, each core can
generate many parallel memory requests at a time. The processing of these
parallel requests in the DRAM controller greatly affects the memory
interference delay experienced by running tasks on the platform. In this paper,
we model a modern COTS multicore system which has a nonblocking last-level
cache (LLC) and a DRAM controller that prioritizes reads over writes. To
minimize interference, we focus on LLC and DRAM bank partitioned systems. Based
on the model, we propose an analysis that computes a safe upper bound for the
worst-case memory interference delay. We validated our analysis on a real COTS
multicore platform with a set of carefully designed synthetic benchmarks as
well as SPEC2006 benchmarks. Evaluation results show that our analysis is more
accurately capture the worst-case memory interference delay and provides safer
upper bounds compared to a recently proposed analysis which significantly
under-estimate the delay.Comment: Technical Repor
Energy Saving Techniques for Phase Change Memory (PCM)
In recent years, the energy consumption of computing systems has increased
and a large fraction of this energy is consumed in main memory. Towards this,
researchers have proposed use of non-volatile memory, such as phase change
memory (PCM), which has low read latency and power; and nearly zero leakage
power. However, the write latency and power of PCM are very high and this,
along with limited write endurance of PCM present significant challenges in
enabling wide-spread adoption of PCM. To address this, several
architecture-level techniques have been proposed. In this report, we review
several techniques to manage power consumption of PCM. We also classify these
techniques based on their characteristics to provide insights into them. The
aim of this work is encourage researchers to propose even better techniques for
improving energy efficiency of PCM based main memory.Comment: Survey, phase change RAM (PCRAM
Radiation safety based on the sky shine effect in reactor
In the reactor operation, neutrons and gamma rays are the most dominant radiation.
As protection, lead and concrete shields are built around the reactor. However, the radiation
can penetrate the water shielding inside the reactor pool. This incident leads to the occurrence
of sky shine where a physical phenomenon of nuclear radiation sources was transmitted
panoramic that extends to the environment. The effect of this phenomenon is caused by the
fallout radiation into the surrounding area which causes the radiation dose to increase. High
doses of exposure cause a person to have stochastic effects or deterministic effects. Therefore,
this study was conducted to measure the radiation dose from sky shine effect that scattered
around the reactor at different distances and different height above the reactor platform. In this
paper, the analysis of the radiation dose of sky shine effect was measured using the
experimental metho
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