面向片上系统的多区域温度控制系统设计
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国家电网有限公司总部科技项目(5700-202041264A-0-0-00)

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Design of Multi-region Temperature Control System for System-on-Chip
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This work is supported by Technology Project of the State Grid Corporation of China (5700-202041264A-0-0-00)

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    摘要:

    在片上系统(system-on-chip,SoC)芯片中,由于各功能部件在频率、活跃度等方面存在差异,导致产热分布不均的问题比较突出,严重影响芯片的可靠性和使用寿命。针对这一问题,该文设计了一种面向 SoC 芯片的多区域温度控制系统。首先,通过片上总线技术进行分布式多区域温度采集,以获取 SoC 芯片的多区域温度信息。然后,设计了兼顾全局与局部温控的温度控制机制。该机制基于温度采集阶段的实时数据,通过协调时钟降频、中断以及脉冲宽度调制散热等方式进行局部或全局芯片温度管理与控制。同时,用户可以通过主控程序调整系统参数,使系统与各种温度控制场景兼容。该文在一种大规模众核 SoC 平台上进行了温度控制系统的测试。实验结果表明,该文提出的温度控制系统可有效减缓 SoC 工作时的芯片温度上升速度,并将芯片区域最高温度控制在用户所设定的极高温临界值 ±3 ℃ 范围内,表明该温度控制系统用于 SoC 芯片的温度控制是可行的。

    Abstract:

    In system-on-chip (SoC) chip, due to the differences in frequencies and activities of various functional components, uneven heat generation distribution has become a serious problem, which adversely affects the reliability and overall lifespan of the chip. To address this concern, a multi-region temperature acquisition and control system for SoC chip is designed. Firstly, the on-chip bus technology is used for distributed multi-region temperature acquisition to obtain multi-region temperature information of SoC chip. Secondly, a temperature control mechanism is designed, which can both satisfy the need of both local or global temperature control. Based on the real-time data of the temperature acquisition stage, this mechanism coordinates the underclocking, interrupt, and pulse width modulation intelligent cooling system to manage and control the temperature of the chip. Additionally, users are allowed to adjust system parameters through the master control program, which makes the system compatible with various temperature control scenarios. In this study, the experiment was carried out in a large-scale multi-core SoC platform for temperature control system. The experimental results show that the proposed temperature control system can effectively slow down the chip temperature rise rate during SoC operation. Meanwhile, the maximum temperature of the chip area is controlled within the extreme high temperature critical value set by the user within the range of ±3 ℃, indicating that the temperature control system is feasible for SoC chip temperature control.

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引文格式
李德建,杨小坤,杨立新,等.面向片上系统的多区域温度控制系统设计 [J].集成技术,2023,12(6):43-56

Citing format
LI Dejian, YANG Xiaokun, YANG Lixin, et al. Design of Multi-region Temperature Control System for System-on-Chip[J]. Journal of Integration Technology,2023,12(6):43-56

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  • 在线发布日期: 2023-11-17
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