Authors :
Michael F. Adaramola; Ayoade B. Ogundare; Oluwagbemiga O. Shoewu; Emmanuel B. Balogun
Volume/Issue :
Volume 8 - 2023, Issue 12 - December
Google Scholar :
http://tinyurl.com/r6h8mrzn
Scribd :
http://tinyurl.com/2ht6mjpv
DOI :
https://doi.org/10.5281/zenodo.10450773
Abstract :
This research paper clearly identifies the
problems of data transmission traffic, erratically slow
data and video streaming on the World Wide Web
internet through the network interface cards (NICs). It
also provides the reliable solutions and appropriate
means to address these perennial problems of ICT-Based
institutions and organisations. The entire wired or
wireless internet data network connectivity of an
institution is sustained by the standard of installed
Network Interface Cards (NICs). The standard and the
relative performance metrics of NIC types such as
1Gbps, 10Gbps and 100Gbps were adequately examined
using different information data sizes of 20MB, 40MB,
60MB, 80MB and 100MB which is either meant for data
upload or download on the internet network.
Specifically, the paper categorically discusses the
parameters for performance metrics of each of these
Ethernet card which include the data transmission time,
data total time delay and throughput. The research work
accurately established the active features of the NICs as
the major backbone of the Internet network and the
transmission control protocol (TCP) which is designed
for reliable transmission of data over the internet. TCP
as a connectionless protocol of the NIC is majorly used
for surfing webs, downloading and uploading files. In
practical terms, the TCP is able to dynamically adapt its
packet sending rate to the network conditions in order to
achieve the highest possible throughput. In a nut-shell,
this research paper proposes an upgrade to 100Gbps
Ethernet card on the Internet infrastructures of ICT-
Based institutions in order to ensure reliable, efficient,
sustainable, fast and effective internet data access in all
internet devices connected to their networks.
Keywords :
Ethernet Card, Data transmission traffic, Transmission Control Protocol, Data transmission time. Data Total Time Delay, Throughput, Internet networks.
This research paper clearly identifies the
problems of data transmission traffic, erratically slow
data and video streaming on the World Wide Web
internet through the network interface cards (NICs). It
also provides the reliable solutions and appropriate
means to address these perennial problems of ICT-Based
institutions and organisations. The entire wired or
wireless internet data network connectivity of an
institution is sustained by the standard of installed
Network Interface Cards (NICs). The standard and the
relative performance metrics of NIC types such as
1Gbps, 10Gbps and 100Gbps were adequately examined
using different information data sizes of 20MB, 40MB,
60MB, 80MB and 100MB which is either meant for data
upload or download on the internet network.
Specifically, the paper categorically discusses the
parameters for performance metrics of each of these
Ethernet card which include the data transmission time,
data total time delay and throughput. The research work
accurately established the active features of the NICs as
the major backbone of the Internet network and the
transmission control protocol (TCP) which is designed
for reliable transmission of data over the internet. TCP
as a connectionless protocol of the NIC is majorly used
for surfing webs, downloading and uploading files. In
practical terms, the TCP is able to dynamically adapt its
packet sending rate to the network conditions in order to
achieve the highest possible throughput. In a nut-shell,
this research paper proposes an upgrade to 100Gbps
Ethernet card on the Internet infrastructures of ICT-
Based institutions in order to ensure reliable, efficient,
sustainable, fast and effective internet data access in all
internet devices connected to their networks.
Keywords :
Ethernet Card, Data transmission traffic, Transmission Control Protocol, Data transmission time. Data Total Time Delay, Throughput, Internet networks.