Power dissipation effects on 28nm FPGA-based System on Chips neutron sensitivity

机译：基于28nm FPGA的芯片中子敏感性的功率耗散效应

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摘要

Modern System on Chips (SoCs) and embedded electronic devices work at very high frequencies, which have the countermeasure of increasing the power dissipation and, consequently, the silicon die temperature. The presented radiation experiments on a 28nm FPGA-based SoC demonstrate that the temperature variation caused by a higher operating frequency affects the FPGA configuration memory cross section. An evaluation and discussion of the observed reliability dependence on power dissipation effects on practical application is also presented.

机译：芯片（SOC）和嵌入式电子设备上的现代系统在非常高的频率下工作，这具有增加功耗的对策，并且因此，硅模具温度增加。基于28nm的SOC上的呈现的辐射实验表明，由较高的工作频率引起的温度变化会影响FPGA配置存储器横截面。还提出了对观察到的可靠性对实际应用效应的评价和讨论。

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《International Conference on Very Large Scale Integration》|2013年||共6页
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Bruni G.; Rech P.; Tambara L.; Nazar G.L.; Kastensmidt F.L.; Reis R.; Paccagnell A.;
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中图分类大规模集成电路、超大规模集成电路;
关键词
field programmable gate arrays; neutrons; sensitivity analysis; system-on-chip; FPGA configuration memory cross section; SoC; embedded electronic device; power dissipation effect; radiation experiment; silicon die temperature; size 28 nm; system on chip neutron sensitivity; Field programmable gate arrays; Heating; Ocean temperature; Power dissipation; System-on-chip; Temperature measurement; Temperature sensors; FPGa; Power Dissipation; Radiation Sensitivity; System On Chips; Temperature;

机译：现场可编程门阵列;敏感性分析;片上系统;FPGA配置内存横截面;SOC;嵌入式电子设备;功耗效果;辐射实验;硅模具温度;芯片中子敏感性;芯片中子敏感性;领域的系统可编程门阵列;加热;海洋温度;功耗;片上系统;温度测量;温度传感器;FPGA;功耗;辐射敏感性;芯片上的系统;温度;温度;

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1. Power Dissipation of the Network-on-Chip in Multi-Processor System-on-Chip Dedicated for Video Coding Applications [J] . Dragomir Milojevic, Luc Montperrus, Diederik Verkest Journal of signal processing systems for signal, image, and video technology . 2009,第2期

机译：专用于视频编码应用的多处理器片上系统中片上网络的功耗
2. System size effects on probing nuclear dissipation with neutrons [J] . 吴锋, 叶巍中国物理C：英文版 . 2010,第005期

机译：系统大小对中子探测核耗散的影响
3. System size effects on probing nuclear dissipation with neutrons [J] . WU Feng, YE Wei 中国物理C（英文版） . 2010,第005期

机译：系统大小对中子探测核耗散的影响
4. Power dissipation effects on 28nm FPGA-based System on Chips neutron sensitivity [C] . Bruni G., Rech P., Tambara L., 2014 22nd International Conference on Very Large Scale Integration . 2014

机译：功耗对基于28nm FPGA的片上系统中子灵敏度的影响
5. Addressing On-Chip Power Converstion and Dissipation Issues in Many-Core System-on-a-Chip Based on Conventional Silicon and Emerging Nanotechnologies [D] . Ashenafi, Emeshaw. 2017

机译：解决基于常规硅和新兴纳米技术的多核单芯片系统中的片上功率转换和功耗问题
6. Measurement of Heat Dissipation and Thermal-Stability of Power Modules on DBC Substrates with Various Ceramics by SiC Micro-Heater Chip System and Ag Sinter Joining [O] . Dongjin Kim, Yasuyuki Yamamoto, Shijo Nagao, 2019

机译：SiC微型加热器芯片系统和Ag烧结连接法测量各种陶瓷DBC基板上功率模块的散热和热稳定性
7. Data Reuse Exploration under an On-Chip Memory Constraint for Low Power FPGA-Based Systems [O] . Qiang Liu, George A. Constantinides, Konstantinos Masselos, 2013

机译：基于片上存储器的低功耗基于FPGA的系统中的数据重用探索
8. Comprehensive Security Analysis of and an Implementation Framework for Embedded Software Attestation Methods Leveraging FPGA-Based System-on-a-Chip Architectures. [R] . Reber, P. A. 2017

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Power dissipation effects on 28nm FPGA-based System on Chips neutron sensitivity

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