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مقالات فارسیISIکنفرانسهاژورنالها

Novel Architecture for Efficient Implementation of Modular Exponentiation Algorithm

محل انتشار: فصلنامه بین المللی وب پژوهی، دوره: 7، شماره: 1
سال انتشار: 1403
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 87

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لینک ثابت به این مقاله:
https://civilica.com/doc/2030735

شناسه ملی سند علمی:

JR_IJWR-7-1_005

تاریخ نمایه سازی: 31 تیر 1403

چکیده مقاله:

One of the most difficult problems in web research is security. Cryptography is the fundamental technique utilized in secure communication. One key element of cryptography is Public-Key Cryptography (PKC). In many PKCs, the Modular Exponentiation (ME) with large modulus is a crucial process. Efficient architecture design and hardware implementation of large integer Modular Exponentiation (ME) plays a vital role in computer science such as public key cryptography. Therefore, many researchers have devoted special interest to provide efficient architecture design and hardware implementation of large integer ME. This study presents and evaluates a novel architecture for the hardware implementation of ME. To achieve the maximum architectural and timing improvements, the critical path of the Left-to-Right (LtR) and Right-to-Left (RtL) ME architectures is reorganized and reordered using a modified modular multiplication. The implementation results on a Xilinx Virtex ۵ FPGA demonstrate that the developed ME architectures have a better performance in comparison with other well-known ME architectures so far in the literatures.

کلیدواژه ها:

Web Security ، Public Key Cryptography ، Modular Exponentiation Architecture ، Modular Multiplication

نویسندگان

Abdalhossein Rezai

Department of Electrical Engineering, University of Science and Culture

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  • Rezai and P. Keshavarzi, "Algorithm design and theoretical analysis of ...
  • Issad, B. Boudraa, M. Anane and N. Anane, "Software/hardware co-design ...
  • Nedjah and L. de Macedo Mourelle, "High-performance hardware of the ...
  • D. Sutter, J. P. Deschamps and J. L. Imana, "Modular ...
  • Rezai and P. Keshavarzi, "Compact SD: A new encoding algorithm ...
  • Zhang, Z. Cheng and M. Pedram, "Design of a High-Performance ...
  • Rezai and P. Keshavarzi, "High-throughput modular multiplication and exponentiation algorithms ...
  • Wu, "High-Performance RNS Modular Exponentiation by Sum-Residue Reduction," in IEEE ...
  • Wu, S. Li and L. Liu, "Fast, compact and symmetric ...
  • P. Fournaris, "Fault and simple power attack resistant RSA using ...
  • Vollala, "Energy efficient triple-modular exponential techniques for batch verification schemes," ...
  • Tiwari, S. N. R. Vollala and S. Begum, "Improving the ...
  • Rezai and P. Keshavarzi, "A new CMM-NAF modular exponentiation algorithm ...
  • L. Wu, "An efficient common-multiplicand-multiplication method to the Montgomery algorithm ...
  • C. Ha and S. J. Moon, "A common-multiplicand method to ...
  • Nedjah and L. D. M. Mourelle, "A hardware/software co-design versus ...
  • Algorithm Design and Theoretical Analysis of a New Bit Forwarding Large Integer Modular Exponentiation Algorithm [مقاله ژورنالی]
  • L. Montgomery, "Modular multiplication without trial division," Mathematics of computation, ...
  • D. Walter, "Systolic modular multiplication," in IEEE transactions on computers, ...
  • Xie, J. jun He, and P. K. Meher, "Low latency ...
  • P. Fournaris and O. Koufopavlou, "A new RSA encryption architecture ...
  • Noyez, N. E. Mrabet, O. Potin and P. Veron, "Montgomery ...
  • Blum and C. Paar, "High-radix Montgomery modular exponentiation on reconfigurable ...
  • Sassaw, C. J. Jimenez and M. Valencia, "High radix implementation ...
  • Immareddy, A. Sundaramoorthy and A. Alagarsamy, "Design and implementation of ...
  • Zhang, Z. Cheng and M. Pedram, "High-radix design of a ...
  • Arunachalamani, V. Venkatasubramani, V. V. Thyagarajan and S. Rajaram, "High ...
  • F. Tenca, G. Todorov and C. K. Koç, "High-radix design ...
  • Ibrahim, H. Elsimary and F. Gebali, "Low-power, high-speed unified and ...
  • F. Tenca and Ç. K. Koç, "A scalable architecture for ...
  • H. Ye, T. W. Hung and M. D. Shieh, "Energy-efficient ...
  • E. Cohen and K. K. Parhi, "Architecture optimizations for the ...
  • R. Ahmadi and A. Afzali-Kusha, "A low-power and low-energy flexible ...
  • W. Reitwiesner, "Binary arithmetic," in Advances in computers, vol. ۱, ...
  • A. Ruiz and M. Granda, "Efficient canonic signed digit recoding," ...
  • D. Walter, "Montgomery exponentiation needs no final subtractions," Electronics letters, ...
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