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3-objectives.tex

3-objectives.tex 2.6 KB
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  1. \iffalse
    2. 

  2. This chapter describes your Goals and Objectives. 
    3. 

  3. Indicate how your work is intended to expand on previous historical work.
    4. 

  4. Present your motivations; why are you doing this?
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  5. Indicate the type of project you have(see the list above).
    6. 

  6. 

  7. Types of Projects:
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  8. 2) Design and Construction projects:
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  9. These types of projects involve the design and construction of some 
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  10. electrical or electronic apparatus or device within the bounds 
    11. 

  11. of the department's educational mandate.
    12. 

  12. \fi
    13. 

  13. 

  14. 

  15. This is just a list of research papers and relative context:
    16. 

  16. 

  17. 

  18. \autocite{5403730} - TTA instruction redundancy remoal method with base plus offset addressing load/store function unit (LSFU)
    19. 

  19. \autocite{4627144} - TTA code compression using arithmetic coding
    20. 

  20. \autocite{5936440} - Novel processor for Multiple Instruction Multiple Data packet triggered architecture for pipeline and parallel processing.
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  21. \autocite{1213033} - Another template based compression method to improve code density
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  22. 

  23. 

  24. \autocite{1511285} - Scalable FIR filtering on TTA
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  25. \autocite{289981} - MOVE32INT TTA implementation. Achieved parallel processing with 80MHz 320Mops/s comparing to RISC 20MHz 20Mops/s. Includes automated design
    26. 

  26. \autocite{6855236} - Parallel programming of a TTA for LDPC encoding application
    27. 

  27. \autocite{922340} - TTA for encryption specific ASIP
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  28. \autocite{4595596} - Focuses on software pipelining and solved with GNU Linear Programming Kit (Very interesting)
    29. 

  29. \autocite{1207041} - Try to reduce power by encoding buses thus reducing switching (read a bit more)
    30. 

  30. \autocite{6972455} - Reducing VLIW interconnects to achieve 10\% core energy in 4-issue VLIW
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  31. \autocite{7363689} - Implementing TTA for SDR and focuses on power optimisations. It show ~24.8-26.1\% decrease in power consumption with 3.3\% area increase.
    32. 

  32. \autocite{8425389} - Using soft cores in comparision to VLIW to have 67\% of resources with up to 88\% improvement in execution time and 21-49\% cost in program size.
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  33. \autocite{8682289} - Low power implementation TTA for FFT
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  34. \autocite{8573494} - Compressive Sensing Applications on ARM Cortex-A15, NIOS II and TTA architectures. TTA has lowest time and power consumption, however about 2.5 higher area to NIOS II
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  35. 

  36. \autocite{6128530} - Implemented TTA that is efficent on RSA calculations, 3 1024bit pairs/s at 100MHz
    37. 

  37. \autocite{1540373} - ASIP TTA for matrix inversion.
    38. 

  38. \autocite{840031}  - Introduce Test space exploration costs for TTA templates.
    39. 

  39. \autocite{6403142} - A novel microachitecture that combines VLIW and TTA for different applications. Takes less area than existing TTA and VLIW
    40. 

  40. \autocite{6893206} - Instruction template based compression method for TTA processors
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  41.