The samples were taken by two random sampling. The population in this research is all students of class X Accounting SMK Sukapura Tasikmalaya Regency. This research is in the form of quantitative research with used experiment methode research. 69-74.The aim of this research is to know the improvement of students’ mathematical communication ability which the better one between the learning with scientific approach by way of the Learning Cycle 5E (LC) model with by way of the Discovery Learning model and knowing the mathematical disposition of the students by way of the LC model with Scientific approach. Lu, Y., Fan, X., Qian, L, “EQF: An explicit queue-length feedback for TCP congestion control in datacenter networks”, Advanced Cloud and Big Data (CBD), 2017, hal. J., “SICC: SDN-based incast congestion control for data centers”, Communication (ICC), 2017, hal 1-6. Berger, “Measuring the state of ecn readiness in servers, clients and routers”, SIGCOMM, pp.171-180, 2011.Ībdelmoniem, A.
#MAKALAH KOMUNIKASI DATA SOFTWARE#
Simon Jouet, Colin Perkins, Dimitrios Pezaros, “OTCP: SDN-manage congestion control for data center networks”, Network Operations and Management Symposium (NOMS), 2016 IEEE/IFIP, 2016.Ĭhunghan Lee, Yukihiro Nakagawa, Kazuki Hyoudou, “Flow-aware congestion control to improve throughput under TCP incast in datacenter networks, Computer Software and Applications Conference (COMPSAC), 2015, hal. “OpenFlow Switch Specification version 1.5.0”, Tersedia. Jaehyung Hwang, Joon Yoo, Sang-Hun Lee, “Scalable congestion control protocol based on SDN in data center networks”, IEEE Global Communications Conference (GLOBECOM), 2015, hal 1-6. Georgios Rodolakis, Amina Meraihi Naimi, Anis Laouiti, “Multicast Overlay Spanning Tree Protocol for Ad Hoc Networks”, WWIC, pp.290-301, 2007.Ĭisco System (Agustus 2006),Understanding and configuring spanning tree protocol (STP) on catalyst switches, Tersedia. Tingwei Zhu, Fang Wang, Yu Hua, Dan Feng, Yong Wan, Qingyu Shi, Yanwen Xie, “MCTCP: Congestion-aware and robust multicast TCP in Software Defined networks”, Quality of Service (IWQoS), 2016 IEEE/ACM 24th International Symposiu, 2016. Krishnan dkk, (April 2014), SFC long-lived flow use cases, Tersedia. Nurlinaamik, (Juni 2014), congestion, Tersedia.
Raj Jain, “Congestion control in computer networks: issues and trends”, IEEE Network Magazine. Jean Claude Franchitti, “Data Communication & Networks”, Tersedia.
Zhi Wang, Chuan Wu, “Responsive multipath TCP in SDN-based datacenters”, Communications (ICC), 2015, hal. Navin Kukreja, Guido Maier, Rodolfo Alvizu, “SDN based automated testbed foor evaluating multipath TCP”, Communication Workshop (ICC), 2016. Yifei Lu, “SED: an SDN-based explicit-deadline-aware TCP for cloud data center networks”, Tsinghua Science and Technology, 2016, hal. Sridharan, “Data center TCP (DCTCP)”, SIGCOMM, pp.63-74. Sengupta, “VL2: A Scalable and flexible data center network”, SIGCOMM, 2009. CHaiken, “The Nature of data center traffic: measurement & analysis”, IMC, 2009.Ī. Maltz, “Network traffic characteristic of data centers in the wild”. Zhang, “ICTCP: Incast Congestion Control for TCP in Data Center Networks”, ACM CoNEXT, 2010. Keith Kirpatrick, “Software-Defined Networking, ACM Communication”, vol. Yifei Lu, Shuhong Zhu, “SDN-based TCP congestion control in data center networks”, Computing and Communications Conference (IPCCC), IEEE 34th International Performance, 2015. Tujuan utama dari pembuatan makalah ini adalah merangkum beberapa mekanisme kontrol kemacetan menggunakan TCP yang telah diakukan oleh para peneliti untuk menangani permasalahan kemacetan pada jaringan. Salah satu solusi penanganan congesti dengan mereduksi ukuran TCP receive window. Permasalahan congestion terjadi ketika sebuah network mempunyai beban yang banyak dan mengakibatkan performansi menurun karena jumlah pengiriman melebihi kapasitas router yang ada. Hal itu menghasilkan banyak trafik direplikasi, yang dapat berakibat menurunkan kinerja aplikasi karena beberapa permasalahan seperti congestion, redundancy dan collision. sebagian besar komunikasi one-to-many pada SDN diimplementasikan melalui beberapa unicast seperti TCP, yang tidak efisien. Sebuah paradigma baru jaringan, Software Defined Network (SDN) dikembangkan membagi integrasi vertikal dalam perangkat jaringan, memisahkan logika kontrol dari infrastruktur jaringan sehingga memungkinkan untuk mengubah keadaan dan kondisi jaringan dari pengontrol yang dapat diprogram secara terpusat.
0 kommentar(er)
