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CIS5100 Semester 1 2018: Dynamics for Financial Settlement Report

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This report analyzes Microsoft Dynamics' impact on financial settlement, accurate reporting, and compliance, highlighting its potential to maximize income opportunities and improve customer service through built-in suggestions. It also emphasizes Dynamics' role in enhancing supply chain visibility and procurement process control. The report includes findings and recommendations supported by a list of references. This document is available for students looking for similar resources and past papers on Desklib, a platform providing AI-based study tools.
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Microsoft's dynamics will accelerate financial settlement and accurate
reporting while ensuring compliance.
Maximize income opportunities & for appropriate serve customers
through built-in suggestions
Raise the visibility of Rikki Wagner's supply chain and better control
her procurement process.
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Social Media: Scope
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Findings
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Artail, H., Saghir, M., Sharafeddin, M., Hajj, H., Kaitoua, A., Morcel, R. and Akkary, H. (2017). Speedy Cloud: Cloud
Computing with Support for Hardware Acceleration Services. IEEE Transactions on Cloud Computing, pp.1-1.
Chang, W. (2014). Transforming enterprise cloud services. [Place of publication not identified]: Springer.
Davis, C. (2017). Realizing Software Reliability in the Face of Infrastructure Instability. IEEE Cloud Computing, 4(5), pp.34-
40.
Esbel, O. and Christian, N. (2016). Hardware/Software Verification Process through Cloud Computing. Lecture Notes on
Software Engineering, 4(2), pp.123-128.
Jannati, H. and Bahrak, B. (2017). An improved authentication protocol for distributed mobile cloud computing services.
International Journal of Critical Infrastructure Protection, 19, pp.59-67.
Kiran, M. and Simons, A. (2016). Testing Software Services in Cloud Ecosystems. International Journal of Cloud
Applications and Computing, 6(1), pp.42-58.
Kulkarni, G. (2012). Cloud Computing-Software as Service. International Journal of Cloud Computing and Services Science
(IJ-CLOSER), 1(1).
Menzel, M., Schönherr, M. and Tai, S. (2011). (MC2)2: criteria, requirements and a software prototype for Cloud
infrastructure decisions. Software: Practice and Experience, 43(11), pp.1283-1297.
MouÄek, R. (2014). Corrigendum: Software and hardware infrastructure for research in electrophysiology. Frontiers in
Neuroinformatics, 8.
Ojala, A. (2016). Discovering and creating business opportunities for cloud services. Journal of Systems and Software, 113,
pp.408-417.
Patterson, D. and Hennessy, J. (2018). Computer organization and design. Cambridge, MA: Morgan Kaufman Publishers.
Serrano, N., Gallardo, G. and Hernantes, J. (2015). Infrastructure as a Service and Cloud Technologies. IEEE Software,
32(2), pp.30-36.
Sill, A. (2016). Hardware Analogies to Cloud Software Standards Development. IEEE Cloud Computing, 3(6), pp.84-88.
Sun, A. (2013). Enabling collaborative decision-making in watershed management using cloud-computing services.
Environmental Modelling & Software, 41, pp.93-97.
Yau, S. and An, H. (2011). Software Engineering Meets Services and Cloud Computing. Computer, 44(10), pp.47-53.
References
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