Milad Hashemi scite author profile

On-chip contention increases memory access latency for multicore processors. We identify that this additional latency has a substantial efect on performance for an important class of latency-critical memory operations: those that result in a cache miss and are dependent on data from a prior cache miss. We observe that the number of instructions between the frst cache miss and its dependent cache miss is usually small. To minimize dependent cache miss latency, we propose adding just enough functionality to dynamically identify these instructions at the core and migrate them to the memory controller for execution as soon as source data arrives from DRAM. This migration allows memory requests issued by our new Enhanced Memory Controller (EMC) to experience a 20% lower latency than if issued by the core. On a set of memory intensive quad-core workloads, the EMC results in a 13% improvement in system performance and a 5% reduction in energy consumption over a system with a Global History Bufer prefetcher, the highest performing prefetcher in our evaluation.

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MorphCore: An Energy-Efficient Microarchitecture for High Performance ILP and High Throughput TLP

Khubaib

Suleman²,

Hashemi

et al. 2012

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Two Sides of the Same Coin: Heterophily and Oversmoothing in Graph Convolutional Neural Networks

Yan¹,

Hashemi²,

Swersky³

et al. 2021

Preprint

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Two Sides of the Same Coin: Heterophily and Oversmoothing in Graph Convolutional Neural Networks

Yan

Hashemi

Swersky

et al. 2022

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Milad Hashemi

Continuous runahead: Transparent hardware acceleration for memory intensive workloads

Accelerating dependent cache misses with an enhanced memory controller

MorphCore: An Energy-Efficient Microarchitecture for High Performance ILP and High Throughput TLP

Two Sides of the Same Coin: Heterophily and Oversmoothing in Graph Convolutional Neural Networks

Two Sides of the Same Coin: Heterophily and Oversmoothing in Graph Convolutional Neural Networks

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