Stefano Corda scite author profile

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Near-memory computing: Past, present, and future

Singh

Chelini

Corda

et al. 2019

Microprocessors and Microsystems

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The conventional approach of moving data to the CPU for computation has become a significant performance bottleneck for emerging scale-out data-intensive applications due to their limited data reuse. At the same time, the advancement in 3D integration technologies has made the decade-old concept of coupling compute units close to the memory -called nearmemory computing (NMC) -more viable. Processing right at the "home" of data can significantly diminish the data movement problem of data-intensive applications.In this paper, we survey the prior art on NMC across various dimensions (architecture, applications, tools, etc.) and identify the key challenges and open issues with future research directions. We also provide a glimpse of our approach to near-memory computing that includes i) NMC specific microarchitecture independent application characterization ii) a compiler framework to offload the NMC kernels on our target NMC platform and iii) an analytical model to evaluate the potential of NMC.

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Coherently Attached Programmable Near-Memory Acceleration Platform and its application to Stencil Processing

Lunteren

Luijten

Diamantopoulos

et al. 2019

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Memory and Parallelism Analysis Using a Platform-Independent Approach

Corda

Singh

Awan

et al. 2019

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Emerging computing architectures such as near-memory computing (NMC) promise improved performance for applications by reducing the data movement between CPU and memory. However, detecting such applications is not a trivial task. In this ongoing work, we extend the state-of-the-art platform-independent software analysis tool with NMC related metrics such as memory entropy, spatial locality, data-level, and basic-block-level parallelism. These metrics help to identify the applications more suitable for NMC architectures. CCS CONCEPTS• Software and its engineering → Dynamic analysis.

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Stefano Corda

A Review of Near-Memory Computing Architectures: Opportunities and Challenges

Near-memory computing: Past, present, and future

Coherently Attached Programmable Near-Memory Acceleration Platform and its application to Stencil Processing

Memory and Parallelism Analysis Using a Platform-Independent Approach

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