A systematic approach for optimized bypass configurations for application-specific embedded processors
T. Jungeblut, B. Hübener, M. Porrmann, U. Rückert, ACM Transactions on Embedded Computing Systems 13 (2013) 1–25.
Download
Es wurde kein Volltext hochgeladen. Nur Publikationsnachweis!
Artikel
| Veröffentlicht
| Englisch
Autor*in
Jungeblut, Thorsten ;
Hübener, Boris;
Porrmann, Mario;
Rückert, Ulrich
Abstract
The diversity of today's mobile applications requires embedded processor cores with a high resource efficiency, that means, the devices should provide a high performance at low area requirements and power consumption. The fine-grained parallelism supported by multiple functional units of VLIW architectures offers a high throughput at reasonable low clock frequencies compared to single-core RISC processors. To efficiently utilize the processor pipeline, common system architectures have to cope with data hazards due to data dependencies between consecutive operations. On the one hand, such hazards can be resolved by complex forwarding circuits (i.e., a pipeline bypass) which forward intermediate results to a subsequent instruction. On the other hand, the pipeline bypass can strongly affect or even dominate the total resource requirements and degrade the maximum clock frequency. In this work the CoreVA VLIW architecture is used for the development and the analysis of application-specific bypass configurations. It is shown that many paths of a comprehensive bypass system are rarely used and may not be required for certain applications. For this reason, several strategies have been implemented to enhance the efficiency of the total system by introducing application-specific bypass configurations. The configuration can be carried out statically by only implementing required paths or at runtime by dynamically reconfiguring the hardware. An algorithm is proposed which derives an optimized configuration by iteratively disabling single bypass paths. The adaptation of these application-specific bypass configurations allows for a reduction of the critical path by 26%. As a result, the execution time and energy requirements could be reduced by up to 21.5%. Using Dynamic Frequency Scaling (DFS) and dynamic deactivation/reactivation of bypass paths allows for a runtime reconfiguration of the bypass system. This ensures the highest efficiency while processing varying applications.
Erscheinungsjahr
Zeitschriftentitel
ACM Transactions on Embedded Computing Systems
Band
13
Zeitschriftennummer
2
Seite
1-25
ISSN
eISSN
FH-PUB-ID
Zitieren
Jungeblut, Thorsten ; Hübener, Boris ; Porrmann, Mario ; Rückert, Ulrich: A systematic approach for optimized bypass configurations for application-specific embedded processors. In: ACM Transactions on Embedded Computing Systems Bd. 13, Association for Computing Machinery (ACM) (2013), Nr. 2, S. 1–25
Jungeblut T, Hübener B, Porrmann M, Rückert U. A systematic approach for optimized bypass configurations for application-specific embedded processors. ACM Transactions on Embedded Computing Systems. 2013;13(2):1-25. doi:10.1145/2514641.2514645
Jungeblut, T., Hübener, B., Porrmann, M., & Rückert, U. (2013). A systematic approach for optimized bypass configurations for application-specific embedded processors. ACM Transactions on Embedded Computing Systems, 13(2), 1–25. https://doi.org/10.1145/2514641.2514645
@article{Jungeblut_Hübener_Porrmann_Rückert_2013, title={A systematic approach for optimized bypass configurations for application-specific embedded processors}, volume={13}, DOI={10.1145/2514641.2514645}, number={2}, journal={ACM Transactions on Embedded Computing Systems}, publisher={Association for Computing Machinery (ACM)}, author={Jungeblut, Thorsten and Hübener, Boris and Porrmann, Mario and Rückert, Ulrich}, year={2013}, pages={1–25} }
Jungeblut, Thorsten, Boris Hübener, Mario Porrmann, and Ulrich Rückert. “A Systematic Approach for Optimized Bypass Configurations for Application-Specific Embedded Processors.” ACM Transactions on Embedded Computing Systems 13, no. 2 (2013): 1–25. https://doi.org/10.1145/2514641.2514645.
T. Jungeblut, B. Hübener, M. Porrmann, and U. Rückert, “A systematic approach for optimized bypass configurations for application-specific embedded processors,” ACM Transactions on Embedded Computing Systems, vol. 13, no. 2, pp. 1–25, 2013.
Jungeblut, Thorsten, et al. “A Systematic Approach for Optimized Bypass Configurations for Application-Specific Embedded Processors.” ACM Transactions on Embedded Computing Systems, vol. 13, no. 2, Association for Computing Machinery (ACM), 2013, pp. 1–25, doi:10.1145/2514641.2514645.