Data Driven Data Encoding for Low Power LDPC Applications

Suresh Dannana; Govinda Rao Tamminaina; A.R.V.Satheesh Kumar

Data Driven Data Encoding for Low Power LDPC Applications

원문정보

Suresh Dannana, Govinda Rao Tamminaina, A.R.V.Satheesh Kumar

보안공학연구지원센터(IJSIP) International Journal of Signal Processing, Image Processing and Pattern Recognition Vol.8 No.10 2015.10 pp.375-388

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초록

영어

The power consumption of network-on-chip (NoC) links start to compete with that of NoC routers. Reduce power consumption in NoCs, in both wires and logic, is to reduce the switching activity by means of coding schemes. The fundamental basic schemes of a NoC-based communicate are Network Interfaces (NIs), Links and routers. These links misuse power due to the switching activity (both self and coupling) induces by following data model traverse the links and routers. Three schemes join to reduce the dynamic power of the NoC data path through a decrease in the number of bit transitions. The transitions are of Type (I to IV) and correspondingly. In this paper, LDPC the encoder is replaced with data encoding schemes in control to reduce the dynamic power consumption in Low Density Parity Check Techniques (LDPC) and the power values are varied to the package of XC3S100E and TQ144 device is used to the comparing of NLDPC to LDPC, best results are evaluated in the proposed technique.

Abstract
1. Introduction
2. Inversion Encoding Techniques
  2.1. Encoding Scheme
  2.2. Data Encoding Inversion Schemes
3. Proposed System
  3.1. Low Density Parity Check Code (LDPC)
  3.2. LDPC through Encoding
  3.3. Modules and its Description
  3.4. Majority Logic Decode
  3.5. Majority Logic Detector/Decoder
4. Data Programming Techniques in LDPC Encoder
  4.1. Performance of LDPC Scheme-1
  4.2. Performance of LDPC Scheme-2
  4.3. Performance of LDPC Scheme-3
5. Results
  5.1. Power Report for NLDPC First Data
  5.2. Simulation Result for Normal LDPC
  5.3 Summary of NLDPC First Data
  5.4 Power Report For ODD LDPC First Data
  5.5. Simulation Result for ODD LDPC
  5.6. Summary of ODD LDPC
  5.7. Power Report for NLDPC Second Data
  5.8. Simulation Result for Normal LDPC
  5.9. Summary of NLDPC Second Data
  5.10. Power Report for FULL LDPC Second Data
  5.11. Summary of FULL LDPC
  5.12. Simulation Result for FULL LDPC
  5.13. Power Report for NLDPC Third Data
  5.14. Simulation Result for Normal LDPC
  5.15. Summary of NLDPC THIRD DATA
  5.16. Power Report for EVEN LDPC Third Data
  5.17. Summary of EVEN LDPC THIRD DATA
  5.18. Simulation Result for EVEN LDPC
  5.19. Comparison of Normal LDPC and ODD LDPC
  5.20. Comparison of Normal LDPC and FULL LDPC
  5.21. Comparison of Normal LDPC and EVEN LDPC
6. Conclusion
References

키워드

저자정보

Suresh Dannana Department of ECE, GMRIT College of Engineering, Andhra Pradesh, India
Govinda Rao Tamminaina Department of ECE, GMRIT College of Engineering, Andhra Pradesh, India
A.R.V.Satheesh Kumar Department of ECE, GMRIT College of Engineering, Andhra Pradesh, India

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