A Q-Learning Based Self-Adaptive I/O Communication for 2.5D Integrated Many-Core Microprocessor and Memory

S. M. P. D.; H. Yu; H. Huang; D. Xu

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A Q-Learning Based Self-Adaptive I/O Communication for 2.5D Integrated Many-Core Microprocessor and Memory

机译：基于Q学习的2.5D集成多核微处理器和存储器的自适应I / O通信

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A self-adaptive output-voltage swing adjustment is introduced in the design of energy-efficient I/O communication for 2.5D integrated many-core microprocessor and memory. Instead of transmitting signal with large voltage swing, a Q-learning based I/O management is deployed to adaptively adjust the I/O output-voltage swing under constraints of both communication power and bit error rate (BER). Simulation results show that the proposed adaptive 2.5D I/Os (in 65 nm CMOS) can achieve an average of 12.5 mW I/O power, 4 GHz bandwidth and 3.125 pJ/bit energy efficiency for one channel under BER. With the use of conventional Q-learning and further accelerated Q-learning, we can achieve 12.95 and 18.89 percent power reduction and 14 and 15.11 percent energy efficiency improvement when compared to the use of uniform output-voltage swing based I/O communication.

机译：在2.5D集成多核微处理器和存储器的节能I / O通信设计中，引入了自适应输出电压摆幅调节。代替传输具有大电压摆幅的信号，部署了基于Q学习的I / O管理，以在通信功率和误码率（BER）的约束下自适应地调整I / O输出电压摆幅。仿真结果表明，提出的2.5D I / O自适应（在65 nm CMOS中）在BER下可为一个通道平均提供12.5 mW I / O功率，4 GHz带宽和3.125 pJ / bit的能量效率。与使用基于均匀输出电压摆幅的I / O通信相比，通过使用常规的Q学习和进一步的加速Q学习，我们可以实现12.95％和18.89％的功耗降低以及14％和15.11％的能源效率提高。

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来源
《IEEE Transactions on Computers》 |2016年第4期|1185-1196|共12页
作者
S. M. P. D.; H. Yu; H. Huang; D. Xu;
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作者单位

Sai Manoj P. D. is with the School of Electrical and Electronic Engineering, Nanyang Technological University (NTU), Singapore.(Email: saimanoj002@e.ntu.edu.sg);

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正文语种 eng
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关键词
2.5D integration; Q-learning; Through-silicon interposer (TSI); low power I/O; many-core microprocessor; memory-logic integration; voltage-swing tuning;

机译：2.5D集成;Q学习;直通硅中介层（TSI）;低功耗I / O;多核微处理器;存储器逻辑集成;电压摆幅调整;

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3. Mapping and Scheduling of Tasks and Communications on Many-Core SoC Under Local Memory Constraint [J] . Lee J., Chung M.-K., Cho Y.-G., IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems . 2013,第11期

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4. Reinforcement learning based self-adaptive voltage-swing adjustment of 2.5D I/Os for many-core microprocessor and memory communication [C] . Huang Hantao, Sai Manoj P.D., Dongjun Xu, IEEE/ACM International Conference on Computer-Aided Design . 2014

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A Q-Learning Based Self-Adaptive I/O Communication for 2.5D Integrated Many-Core Microprocessor and Memory

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