Compiler-directed scratch pad memory optimization for embedded multiprocessors

Kandemir M.; Kadayif I.; Choudhary A.; Ramanujam J.; Kolcu I.

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Compiler-directed scratch pad memory optimization for embedded multiprocessors

机译：针对嵌入式多处理器的编译器控制的暂存器内存优化

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This paper presents a compiler strategy to optimize data accesses in regular array-intensive applications running on embedded multiprocessor environments. Specifically, we propose an optimization algorithm that targets at reducing extra off-chip memory accesses caused by interprocessor communication. This is achieved by increasing the application-wide reuse of data that resides in scratch-pad memories of processors. Our results obtained using four array-intensive image processing applications indicate that exploiting interprocessor data sharing can reduce energy-delay product significantly on a four-processor embedded system.

机译：本文提出了一种编译器策略，用于优化在嵌入式多处理器环境中运行的常规阵列密集型应用程序中的数据访问。具体来说，我们提出了一种优化算法，旨在减少由处理器间通信引起的额外的片外存储器访问。这可以通过增加驻留在处理器暂存器中的数据在应用程序范围内的重用来实现。我们使用四个阵列密集型图像处理应用程序获得的结果表明，利用处理器间数据共享可以在四处理器嵌入式系统上显着减少能耗产品。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2004年第3期|p.281-287|共7页
作者
Kandemir M.; Kadayif I.; Choudhary A.; Ramanujam J.; Kolcu I.;
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正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
DRAM chips; embedded systems; file organisation; microprocessor chips; multiprocessing systems; optimisation; optimising compilers; compiler; data accesses; embedded multiprocessors; energy delay product reduction; image processing applications; interprocessor commu;

机译：DRAM芯片;嵌入式系统;文件组织;微处理器芯片;多处理系统;优化;优化编译器;编译器;数据访问;嵌入式多处理器;减少能源延迟产品;图像处理应用程序;处理器间通信;

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1. Optimizing Data Distribution for Loops on Embedded Multicore with Scratch-Pad Memory [J] . Qiuyan Gao1, Qingfeng Zhuge2, Jun Zhang1, Journal of Computers . 2014,第5期

机译：使用刮板存储器优化嵌入式多核循环的数据分布
2. Data-Reuse-Driven Energy-Aware Cosynthesis of Scratch Pad Memory and Hierarchical Bus-Based Communication Architecture for Multiprocessor Streaming Applications [J] . Issenin I., Brockmeyer E., Durinck B., IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems . 2008,第8期

机译：暂存器数据的数据重用驱动的能量感知综合与基于分层总线的多处理器流应用通信架构
3. Data Allocation Optimization for Hybrid Scratch Pad Memory With SRAM and Nonvolatile Memory [J] . Hu J., Xue C.J., Zhuge Q., Very Large Scale Integration (VLSI) Systems, IEEE Transactions on . 2013,第6期

机译：具有SRAM和非易失性存储器的混合暂存器数据的数据分配优化
4. Exploiting shared scratch pad memory space in embedded multiprocessor systems [C] . Mahmut Kandemir, J. Ramanujam, A. Choudhary Conference on Design automation . 2002

机译：在嵌入式多处理器系统中利用共享的暂存器存储空间
5. Heap data allocation to scratch-pad memory in embedded systems. [D] . Dominguez, Angel. 2007

机译：将数据分配给嵌入式系统中的暂存器。
6. Implementing a Chaotic Cryptosystem by Performing Parallel Computing on Embedded Systems with Multiprocessors [O] . Abraham Flores-Vergara, Everardo Inzunza-González, Enrique Efren García-Guerrero, 2019

机译：通过在具有多处理器的嵌入式系统上执行并行计算来实现混沌密码系统
7. Compiler-Directed Scratch Pad Memory Optimization for Embedded Multiprocessors [O] . Mahmut K, Ismail Kadayif, Alok Choudhary, 2010

机译：面向编译器的嵌入式多处理器暂存器内存优化
8. Compiler-Driven Dynamic Memory Allocation Methodology for Scratch-Pad Based Embedded Systems. [R] . Barua, R. K., Udayakumaran, S. 2004

机译：基于scratch-pad的嵌入式系统的编译驱动动态内存分配方法。

Compiler-directed scratch pad memory optimization for embedded multiprocessors

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