论文信息 - Experience and Performance of Persistent Memory for the DUNE Data Acquisition System

Experience and Performance of Persistent Memory for the DUNE Data Acquisition System

Emerging high-performance storage technologies are opening up the possibility of designing new distributed data acquisition (DAQ) system architectures, in which the live acquisition of data and their processing are decoupled through a storage element. An example of these technologies is 3D XPoint, which promises to fill the gap between memory and traditional storage and offers unprecedented high throughput for nonvolatile data. In this article, we characterize the performance of persistent memory devices that use the 3D XPoint technology, in the context of the DAQ system for one large Particle Physics experiment, DUNE. This experiment must be capable of storing, upon a specific signal, incoming data for up to 100 s, with a throughput of 1.5 TB/s, for an aggregate size of 150 TB. The modular nature of the apparatus allows splitting the problem into 150 identical units operating in parallel, each at 10 GB/s. The target is to be able to dedicate a single CPU to each of those units for DAQ and storage.

[1] Alberto Di Meglio,et al. CERN openlab Whitepaper on Future IT Challenges in Scientific Research , 2014 .

[2] Jaeyoung Do,et al. Lessons learned from the early performance evaluation of Intel optane DC persistent memory in DBMS , 2020, DaMoN.

[3] Maria Girone,et al. submitter : CERN openlab white paper on future ICT challenges in scientific research , 2018 .

[4] Vladimir M. Pentkovski,et al. Implementing Streaming SIMD Extensions on the Pentium III Processor , 2000, IEEE Micro.

[5] Ryousei Takano,et al. A Prompt Report on the Performance of Intel Optane DC Persistent Memory Module , 2020, IEICE Trans. Inf. Syst..

[6] Gary Drake,et al. FELIX: a PCIe based high-throughput approach for interfacing front-end and trigger electronics in the ATLAS Upgrade framework , 2016 .

[7] Nick Knupffer. Intel Corporation , 2018, The Grants Register 2019.

[8] V. P. Luzio,et al. Volume I. Introduction to DUNE , 2020, Journal of Instrumentation.

[9] Xiao Liu,et al. Basic Performance Measurements of the Intel Optane DC Persistent Memory Module , 2019, ArXiv.

[10] Roland Sipos. The DAQ for the Single-Phase DUNE Prototype at CERN , 2019, IEEE Transactions on Nuclear Science.

[11] Gautam Barua,et al. DurableFS: A File System for Persistent Memory , 2018, ArXiv.