Scalable and Efficient Virtual Memory Sharing in Heterogeneous SoCs with TLB Prefetching and MMU-Aware DMA Engine
Open access
Date
2018Type
- Conference Paper
Abstract
Shared virtual memory (SVM) is key in heterogeneous systems on chip (SoCs), which combine a general-purpose host processor with a many-core accelerator, both for programmability and to avoid data duplication. However, SVM can bring a significant run time overhead when translation lookaside buffer (TLB) entries are missing. Moreover, allowing DMA burst transfers to write SVM traditionally requires buffers to absorb transfers that miss in the TLB. These buffers have to be overprovisioned for the maximum burst size, wasting precious on-chip memory, and stall all SVM accesses once they are full,
hampering the scalability of parallel accelerators.
In this work, we present our SVM solution that avoids the majority of TLB misses with prefetching, supports parallel burst
DMA transfers without additional buffers, and can be scaled with the workload and number of parallel processors. Our
solution is based on three novel concepts: To minimize the rate of TLB misses, the TLB is proactively filled by compiler-generated Prefetching Helper Threads, which use run-time information to issue timely prefetches. To reduce the latency of TLB misses, misses are handled by a variable number of parallel Miss Handling Helper Threads. To support parallel burst DMA transfers to SVM without additional buffers, we add lightweight hardware to a standard DMA engine to detect and react to TLB misses. Compared to the state of the art, our work improves accelerator performance for memory-intensive kernels by up to 4× and by up to 60 % for irregular and regular memory access patterns, respectively. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000292549Publication status
publishedExternal links
Book title
2018 IEEE 36th International Conference on Computer Design (ICCD)Pages / Article No.
Publisher
IEEEEvent
Organisational unit
03996 - Benini, Luca / Benini, Luca
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