Abstract
Nowadays, many embedded processors include in their architecture on-chip static memories, so called scratch-pad memories (SPM). Compared to cache, these memories do not require complex control logic, thus resulting in increased efficiency both in silicon area and energy consumption. Last years, many papers have proposed algorithms to allocate memory segments in SPM in order to enhance its usage. However, very few care about the SPM architecture itself, to make it more controllable, more power efficient and faster. This paper proposes architecture extensions to automatically load code into the SPM whilst it is fetched for execution to reduce the SPM updating delays, which motivates a very dynamic use of the SPM. We test our proposal in a derivation of the Simplescalar simulator, with typical embedded benchmarks. The results show improvements, on average, of 30.6% in energy saving and 7.6% in performance compared to a system with cache.
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Banakar, R., Steinke, S., Lee, B.-S., Balakrishnan, M., Marwedel, P.: Scratchpad memory: design alternative for cache on-chip memory in embedded systems. In: CODES 2002, pp. 73–78 (2002)
Verma, M., Wehmeyer, L., Marwedel, P.: Cache-Aware Scratchpad Allocation Algorithm. In: DATE 2004, pp. 1264–1269 (2004)
Verma, M., Marwedel, P.: Advanced memory optimization techniques for low-power embedded processors, pp. I-XII, 1–188. Springer, Heidelberg (2007)
Nguyen, N., Dominguez, A., Barua, R.: Memory allocation for embedded systems with a compile-time-unknown scratch-pad size. In: CASES 2005, pp. 115–125 (2005)
Egger, B., Kim, C., Jang, C., Nam, Y., Lee, J., Min, S.L.: A dynamic code placement technique for scratchpad memory using postpass optimization. In: CASES 2006, pp. 223–233 (2006)
Egger, B., Lee, J., Shin, H.: Scratchpad memory management for portable systems with a memory management unit. In: EMSOFT 2006, pp. 321–330 (2006)
Egger, B., Lee, J., Shin, H.: Dynamic scratchpad memory management for code in portable systems with an MMU. ACM Trans. Embedded Comput. Syst. 7(2) (2008)
Cho, H., Egger, B., Lee, J., Shin, H.: Dynamic data scratchpad memory management for a memory subsystem with an MMU. In: LCTES 2007, pp. 195–206 (2007)
Janapsatya, A., Parameswaran, S., Ignjatovic, A.: Hardware/software managed scratchpad memory for embedded system. In: ICCAD 2004, pp. 370–377 (2004)
Balakrishnan, M., Marwedel, P., Wehmeyer, L., Grunwald, N., Banakar, R., Steinke, S.: Reducing Energy Consumption by Dynamic Copying of Instructions onto Onchip Memory. In: ISSS 2002, pp. 213–218 (2002)
Poletti, F., Marchal, P., Atienza, D., Benini, L., Catthoor, F., Mendias, J.M.: An integrated hardware/software approach for run-time scratchpad management. In: DAC 2004, pp. 238–243 (2004)
Li, L., Gao, L., Xue, J.: Memory Coloring: A Compiler Approach for Scratchpad Memory Management. In: IEEE PACT 2005, pp. 329–338 (2005)
Lee, L.H., Moyer, B., Arends, J.: Instruction fetch energy reduction using loop caches for embedded applications with small tight loops. In: ISLPED 1999, pp. 267–269 (1999)
Victorio, J.A., Torres Moren, E.F., Yúfera, V.V.: Vatios: Simulador de Procesador con Estimación de Potencia. XVIII Jornadas de Paralelismo, Zaragoza (2007)
Burger, D., Austin, T.M.: The SimpleScalar Tool Set Version 2.0. Technical Report 1342, Computer Sciences Department. University of Wisconsin–Madison (May 1997)
Brooks, D., Tiwari, V., Martonosi, M.: Wattch: a framework for architectural-level power analysis and optimizations. In: ISCA 2000, pp. 83–94 (2000)
Tarjan, D., Thoziyoor, S., Jouppi, N.: CACTI 4.0, P. HPL-2006- 86 20060606
The Mälardalen WCET research group. The Mälardalen WCET benchmarks homepage, http://www.mrtc.mdh.se/projects/wcet/benchmarks.html
Cho, D., Pasricha, S., Issenin, I., Dutt, N.D., Ahn, M., Paek, Y.: Adaptive Scratch Pad Memory Management for Dynamic Behavior of Multimedia Applications. IEEE Trans. on CAD of Integrated Circuits and Systems (TCAD) 28(4), 554–567 (2009)
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Busquets-Mataix, J.V., Catalá, C., Martí-Campoy, A. (2011). Architecture Extensions for Efficient Management of Scratch-Pad Memory. In: Ayala, J.L., García-Cámara, B., Prieto, M., Ruggiero, M., Sicard, G. (eds) Integrated Circuit and System Design. Power and Timing Modeling, Optimization, and Simulation. PATMOS 2011. Lecture Notes in Computer Science, vol 6951. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-24154-3_5
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DOI: https://doi.org/10.1007/978-3-642-24154-3_5
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