In recent years, with the continuous development of network and information technology, the distributed system has replaced the centralized architecture and become the focus of researchers. Consistency is a basic and complex problem in the implementation of distributed systems. This paper mainly studies the state consistency algorithm of peer-to-peer distributed system based on DM(DM). This paper first summarizes the types of DM algorithms. In order to achieve high throughput, low latency and high availability at the same time as possible, this paper designs a VC algorithm for state machine replication, and this paper makes a quantifiable performance analysis of the consensus protocol from the four aspects of cluster fault tolerance, communication cost and election cost.

Seyyed Babak Alavi. State Consistency Algorithm for Peer to Peer Distributed Systems Based on Data Mining. Distributed Processing System (2020), Vol. 1, Issue 4: 33-40. https://doi.org/10.38007/DPS.2020.010405.

[1] Baresi L, Ghezzi C, Ma X, et al. Efficient Dynamic Updates of Distributed Components Through Version Consistency. IEEE Transactions on Software Engineering, 2017, 43(4):340-358.

[2] Alghamdi M I, Alghamdi M, Almushilah M, et al. Recovery Support for Real-time Distributed Editing Systems. Journal of Internet Technology, 2020, 19(4):1119-1129.

[3] Katsaros D. Distributed ledger technology: the science of the blockchain (2nd ed.). Computing reviews, 2018, 59(11):596-597.

[4] Bello A U, Nnakwe M O. An asynchronous inertial algorithm for solving convex feasibility problems with strict pseudo-contractions in Hilbert spaces. Proceedings of the Edinburgh Mathematical Society, 2020, 65(1):229-243.

[5] Nikitin V, Andrade V D, Slyamov A, et al. Distributed Optimization for Nonrigid Nano-Tomography. IEEE Transactions on Computational Imaging, 2020, PP(99):1-1.

[6] Alghamdi M I, Jiang X, Zhang J, et al. Recovery support for real-time distributed editing systems. Journal of Internet Technology, 2018, 19(4):1119-1129.

[7] Hsu T Y, Kshemkalyani A, Shen M. Causal consistency algorithms for partially replicated and fully replicated systems. Future Generation Computer Systems, 2017, 86(SEP.):1118-1133.

[8] Bouyakhf E H, Hammoujan S, Benelallam I. Dynamic vs. static agent ordering in distributed arc consistency. International Journal of Advanced Intelligence Paradigms, 2018, 10(3):266.

[9] [1]Beck, Christopher J. [Lecture Notes in Computer Science] Principles and Practice of Constraint Programming Volume 10416 || Arc Consistency via Linear Programming. 2017, 10.1007/978-3-319-66158-2(Chapter 8):114-128.

[10] Yan P, Choudhury S, Wei R. A Machine Learning Auxiliary Approach for the Distributed Dense RFID Readers Arrangement Algorithm. IEEE Access, 2020, PP(99):1-1.

[11] Alanazi E. Arc Consistency for Constrained Lexicographic Preference Trees. IEEE Access, 2020, PP(99):1-1.

[12] Parise F, Gentile B, Lygeros J. A distributed algorithm for average aggregative games with coupling constraints. IEEE Transactions on Control of Network Systems, 2020, 7(2):770-782.

[13] Arleo A, Didimo W, Liotta G, et al. A Distributed Multilevel Force-Directed Algorithm. IEEE Transactions on Parallel & Distributed Systems, 2019, 30(4):754-765.

[14] Ferrer M, Gonzalez A, Diego M D, et al. Distributed Affine Projection Algorithm Over Acoustically Coupled Sensor Networks. IEEE Transactions on Signal Processing, 2017, 65(24):6423-6434.

[15] Jose L, Ibanez S, Alizadeh M, et al. A Distributed Algorithm to Calculate Max-Min Fair Rates Without Per-Flow State. Proceedings of the ACM on Measurement and Analysis of Computing Systems, 2019, 3(2):1-42.

[16] Iranpour E, Sharifian S. A distributed load balancing and admission control algorithm based on Fuzzy type-2 and Game theory for large-scale SaaS cloud architectures. Future Generation Computer Systems, 2018, 86(SEP.):81-98.

[17] Seshadri K, Mercy S S, Manohar S. A distributed parallel algorithm for inferring hierarchical groups from large-scale text corpuses. Concurrency, practice and experience, 2018, 30(11):1-18.

[18] Zayyani H, Sari R, Korki M. A Distributed One-bit Compressed Sensing Algorithm for Nonlinear Sensors with a Cramer-Rao Bound. IEEE Communications Letters, 2017, PP(99):1-1.