A Survey on Flip Flop Replacement to Latch on Various Design

Vasumathi, S.P and Murlidharan, D A Survey on Flip Flop Replacement to Latch on Various Design. International Journal of Pure and Applied Mathematics, 2018, vol. 119, n. 12, pp. 13453-13468. [Journal article (Paginated)]

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English abstract

This paper presents survey for the replacement of flip flop to latches and the advantages of the latch based sequential design Flip flop are the major part of the design a sequential elements and this flip flop has more disadvantages as performance decreases and area increases. An alternate method to increase the performance and reduce the area size latches. Latches are used instead of flip flops in certain places to increase the performance and decrease the area.

Item type: Journal article (Paginated)
Keywords: Clock Skew, Clock Jitter, Time Borrowing, Flip-Flop, Latch
Subjects: B. Information use and sociology of information
B. Information use and sociology of information > BD. Information society.
Depositing user: Raster Daster
Date deposited: 02 Aug 2018 07:28
Last modified: 02 Aug 2018 07:28
URI: http://hdl.handle.net/10760/33256

References

[1] Nik Azman Nik Hassan, Asrulnizam Bin Abd Manaf, Leong Chan Ming “Optimization of Circuitry for Power and Area Efficiency by Using Combination between Latch and Register”, 2011 International Conference on Computer Application and Industrial Electronics(ICCAIE)

[2] D. Chinnery, K. Keautzer, J. Sanghavi, E. Killian, and K. Sheth, “Automatic Replacement of Flip-Flops by Latches in ASICSs,” Clossing the Gap Between ASIC and Custom, chapter 7 pp.185-208, Kluwer Acedemic Publisher, 2002.

[3] Young Jun Lee, Yong-Bin Kim, E Lombardi, Nohpill Park” Timing Requirement for Reliable Latch-Based Circuit Design” IMTC 200.1 - Instrumentation and Measurement, Technology Conference, Como, Italy, May,2004

[4]H. Partavi, “Clacked Storage Elements”, Design of High-performance Microprocessor Circuits”, IEEE Press, ZWO, pp.207-233.

[5] Y Hagihara, S. hui, A. Yoshikawa, T. Uesugi, T. Osada, S.NaLaZat0, M.ked& M. Olrada, and S. Yamada, “A Skew-Tolerant Design Scheme for Ovcr l GHz LSI’s,” Proceeding of ESSCIRC ZOW, pp.416-419.

[6] 1. D. Wamack, 1. M. Kcaly, 1. Pctmvick, J. G Clabes, C. J.Kimhcr, E. L. huter, P. J. Restle, B. A. Zoric, and C. J.Aaderson, “The circuit and physical design of the POWER4 microprocessor,” IBM J. Res. & Dev. 46 Na.1 lanuaryZwZ,pp.27-51.

[7]C.A.J.van Eijik, “Sequential Equivalence Checking without State Traversal”, Proceedings of DATE, 1998, pp618-623.

[8] GHastw, A.Mathur, and P.Banejee, “Efficient Equivalence Checking of Multi-Phase Designs Using Retiming”, proceedings of ICCAD, 1998, pp557-562.

[9] D.Anastasakis, R.Damiana, H.T.ma, and T.Stanion, “A Practical and Efficient Method for Compare-Point matching”,’ proceeding afDAC, 2W2, pp305-310.

[10] A. Kobayashi, S. Matsuc, and H. Shiba “Flip-flop Circuit with FLT Capabilily’: Proceedings oflECEO conference, 1968, p.962. (In Japanese)

[11] S. Funatsu, N. Wakatsuki, and A. Yamada, “Designing Digital Circuits with Easily Testable Consideration”, Proceedings of Test Conferance, 1978, pp.98-102

[12] Bill Teng, Jason H. Anderson” Latch-Based Performance Optimization for FPGAs”, 2011 21st International Conference on Field Programmable Logic and Applications.

[13] L. Shang, A. S. Kaviani, and K. Bathala, “Dynamic power consumption in Virtex-II FPGA family,” in ACM FPGA, 2002.

[14] V. Degalahal and T. Tuan, “Methodology for high level estimation of FPGA power consumption,” in IEEE/ACM ASP-DAC, vol. 1, 2005.

[15] KO Yoshikawa, Keisuke Kanamaru, Shigeto Inui, Yasuhiko Hagihara, Yuichi Nakamurat, Takeshi Yoshimura” Timing Optimization by Replacing Flip-Flops to Latches”, 0-780-8175-0/04/$17.00(C)2004 IEEE.

[16] Leonardo Rezende Juracy, Matheus Trevisan Moreira, Felipe Augusto Kuentzer, and Alexandre de Morais Amory” Optimized Design of an LSSD Scan Cell”, Optimized Design of an LSSD Scan Cell [1] M Ozaki, Y. Adachi, Y. Iwahori, and N. Ishii, Application of fuzzy theory to writer recognition of Chinese characters, International Journal of Modelling and Simulation, 18(2), 1998, 112-116.

[17] Lalgudi, K.N, Papaefthymiou, M.C. “Fixed-Phased Retiming for Low Power Design,” International Symposium on Low Power Electronics and Design, August 1996, pp. 259-264.

[18] Indragandhi, V., Logesh, R., Subramaniyaswamy, V., Vijayakumar, V., Siarry, P., & Uden, L. (2018). Multi-objective optimization and energy management in renewable based AC/DC microgrid. Computers & Electrical Engineering.

[19] Subramaniyaswamy, V., Manogaran, G., Logesh, R., Vijayakumar, V., Chilamkurti, N., Malathi, D., & Senthilselvan, N. (2018). An ontology-driven personalized food recommendation in IoT-based healthcare system. The Journal of Supercomputing, 1-33.

[20] Arunkumar, S., Subramaniyaswamy, V., & Logesh, R. (2018). Hybrid Transform based Adaptive Steganography Scheme using Support Vector Machine for Cloud Storage. Cluster Computing.

[21] Indragandhi, V., Subramaniyaswamy, V., & Logesh, R. (2017). Resources, configurations, and soft computing techniques for power management and control of PV/wind hybrid system. Renewable and Sustainable Energy Reviews, 69, 129-143.

[22] Ravi, L., & Vairavasundaram, S. (2016). A collaborative location based travel recommendation system through enhanced rating prediction for the group of users. Computational intelligence and neuroscience, 2016, Article ID: 1291358.

[23] Logesh, R., Subramaniyaswamy, V., Malathi, D., Senthilselvan, N., Sasikumar, A., & Saravanan, P. (2017). Dynamic particle swarm optimization for personalized recommender system based on electroencephalography feedback. Biomedical Research, 28(13), 5646-5650.

[24] Arunkumar, S., Subramaniyaswamy, V., Karthikeyan, B., Saravanan, P., & Logesh, R. (2018). Meta-data based secret image sharing application for different sized biomedical images. Biomedical Research,29.

[25] Vairavasundaram, S., Varadharajan, V., Vairavasundaram, I., & Ravi, L. (2015). Data mining‐based tag recommendation system: an overview. Wiley Interdisciplinary Reviews: Data Mining and Knowledge Discovery, 5(3), 87-112.

[26] Logesh, R., Subramaniyaswamy, V., & Vijayakumar, V. (2018). A personalised travel recommender system utilising social network profile and accurate GPS data. Electronic Government, an International Journal, 14(1), 90-113.

[27] Vijayakumar, V., Subramaniyaswamy, V., Logesh, R., & Sivapathi, A. (2018). Effective Knowledge Based Recommeder System for Tailored Multiple Point of Interest Recommendation. International Journal of Web Portals.

[28] Subramaniyaswamy, V., Logesh, R., & Indragandhi, V. (2018). Intelligent sports commentary recommendation system for individual cricket players. International Journal of Advanced Intelligence Paradigms, 10(1-2), 103-117.

[29] Indragandhi, V., Subramaniyaswamy, V., & Logesh, R. (2017). Topological review and analysis of DC-DC boost converters. Journal of Engineering Science and Technology, 12 (6), 1541–1567.

[30] Saravanan, P., Arunkumar, S., Subramaniyaswamy, V., & Logesh, R. (2017). Enhanced web caching using bloom filter for local area networks. International Journal of Mechanical Engineering and Technology, 8(8), 211-217.

[31] Arunkumar, S., Subramaniyaswamy, V., Devika, R., & Logesh, R. (2017). Generating visually meaningful encrypted image using image splitting technique. International Journal of Mechanical Engineering and Technology, 8(8), 361–368.

[32] Subramaniyaswamy, V., Logesh, R., Chandrashekhar, M., Challa, A., & Vijayakumar, V. (2017). A personalised movie recommendation system based on collaborative filtering. International Journal of High Performance Computing and Networking, 10(1-2), 54-63.

[33] Senthilselvan, N., Udaya Sree, N., Medini, T., Subhakari Mounika, G., Subramaniyaswamy, V., Sivaramakrishnan, N., & Logesh, R. (2017). Keyword-aware recommender system based on user demographic attributes. International Journal of Mechanical Engineering and Technology, 8(8), 1466-1476.

[34] Subramaniyaswamy, V., Logesh, R., Vijayakumar, V., & Indragandhi, V. (2015). Automated Message Filtering System in Online Social Network. Procedia Computer Science, 50, 466-475.

[35] Subramaniyaswamy, V., Vijayakumar, V., Logesh, R., & Indragandhi, V. (2015). Unstructured data analysis on big data using map reduce. Procedia Computer Science, 50, 456-465.

[36] Subramaniyaswamy, V., Vijayakumar, V., Logesh, R., & Indragandhi, V. (2015). Intelligent travel recommendation system by mining attributes from community contributed photos. Procedia Computer Science, 50, 447-455.

[37] Vairavasundaram, S., & Logesh, R. (2017). Applying Semantic Relations for Automatic Topic Ontology Construction. Developments and Trends in Intelligent Technologies and Smart Systems, 48.

[38] Logesh, R., Subramaniyaswamy, V., Vijayakumar, V., Gao, X. Z., & Indragandhi, V. (2017). A hybrid quantum-induced swarm intelligence clustering for the urban trip recommendation in smart city. Future Generation Computer Systems, 83, 653-673.

[39] Subramaniyaswamy, V., & Logesh, R. (2017). Adaptive KNN based Recommender System through Mining of User Preferences. Wireless Personal Communications, 97(2), 2229-2247.

[40] Logesh, R., & Subramaniyaswamy, V. (2017). A Reliable Point of Interest Recommendation based on Trust Relevancy between Users. Wireless Personal Communications, 97(2), 2751-2780.

[41] Logesh, R., & Subramaniyaswamy, V. (2017). Learning Recency and Inferring Associations in Location Based Social Network for Emotion Induced Point-of-Interest Recommendation. Journal of Information Science & Engineering, 33(6), 1629–1647.

[42] Subramaniyaswamy, V., Logesh, R., Abejith, M., Umasankar, S., & Umamakeswari, A. (2017). Sentiment Analysis of Tweets for Estimating Criticality and Security of Events. Journal of Organizational and End User Computing (JOEUC), 29(4), 51-71.


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