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RESEARCH 》 My sample Wireshark packet capture files for research

I have a huge repository (or collection) of sample Wireshark packet capture files for reference. I use them extensively for research and development of TOFFEE as well to understand various protocol PDUs and protocol standards. Out of which some I collected via official Wireshark website such as HERE and some I collected from PacketLife.net (url HERE). But apart from these I personally collected various test captures via Wireshark during my test and experimental research setup during the course of TOFFEE development.

Say if you are a student and learning Networking and or say VoIP data and VoIP packets, you can analyse my VoIP sample Wireshark captures. Or in other case assume you are doing some quick research (or development) and want to refer few handful of VoIP packets then you can download and analyse my sample packet capture files.

So here is my entire personal collection of sample Wireshark packet capture files which I captured myself in my lab.

HTTPS HTTPS kernel.org
FTP FTP kernel.org
Google QUIC QUIC packets via Google Chrome browser
ICMP IPv6 ICMP
SSH Access IPv6 SSH Access
SNMP IPv6 SNMP
Teamviewer Teamviewer Sample 1
NFS NFS Sample 1
IPERF
DNS
DHCP credits: Akash Satish Phalak

Suggested Video:


Suggested Topics:


WAN Optimization and Network Optimization

💎 TOFFEE-MOCHA new bootable ISO: Download
💎 TOFFEE Data-Center Big picture and Overview: Download PDF


Recommended Topics:

Tracking Live Network Application Data - in a WAN Acceleration (WAN Optimization) Device ↗
Sunday' 24-Jan-2021

Live demo - Data Transfer - High bandwidth to Low bandwidth ↗
Sunday' 24-Jan-2021
I always wanted to do some real experiments and research on packet flow patterns from High-bandwidth to Low-bandwidth networks via networking devices. This is something can be analyzed via capturing Network stack buffer data and other parameters, bench-marking, and so on. But eventually the data-transfer nature and other aspects is often contaminated due to the underlying OS and the way Network stack is implemented. So to understand the nature of packet flow from Higher to Lower bandwidth and vice-versa such as Lower to higher bandwidth, I thought I experiment with various tools and things which physically we can observe this phenomena.

Streaming CDN Types ↗
Sunday' 24-Jan-2021

Setting up a WAN Emulator within VirtualBox ↗
Sunday' 24-Jan-2021

CDN Introduction - Content Delivery Networks or Content Distribution Networks ↗
Sunday' 24-Jan-2021

Recording Lab Monthly off-grid power-consumption readings for research ↗
Sunday' 24-Jan-2021

Watch on Youtube - 280 WAN Optimization - Animated demo of Packet Optimization in TOFFEE-DataCenter ↗


Tracking Live Network Application Data - in a WAN Acceleration (WAN Optimization) Device ↗
Sunday' 24-Jan-2021

Live demo - Data Transfer - High bandwidth to Low bandwidth ↗
Sunday' 24-Jan-2021
I always wanted to do some real experiments and research on packet flow patterns from High-bandwidth to Low-bandwidth networks via networking devices. This is something can be analyzed via capturing Network stack buffer data and other parameters, bench-marking, and so on. But eventually the data-transfer nature and other aspects is often contaminated due to the underlying OS and the way Network stack is implemented. So to understand the nature of packet flow from Higher to Lower bandwidth and vice-versa such as Lower to higher bandwidth, I thought I experiment with various tools and things which physically we can observe this phenomena.

Setting up a WAN Emulator within VirtualBox ↗
Sunday' 24-Jan-2021

Streaming CDN Types ↗
Sunday' 24-Jan-2021



Featured Educational Video:
Watch on Youtube - 352 Linux user-space - Shared Memory IPC - Live Demo and Exa ↗

Tracking Live Network Application Data - in a WAN Acceleration (WAN Optimization) Device ↗
Sunday' 24-Jan-2021

Live demo - Data Transfer - High bandwidth to Low bandwidth ↗
Sunday' 24-Jan-2021
I always wanted to do some real experiments and research on packet flow patterns from High-bandwidth to Low-bandwidth networks via networking devices. This is something can be analyzed via capturing Network stack buffer data and other parameters, bench-marking, and so on. But eventually the data-transfer nature and other aspects is often contaminated due to the underlying OS and the way Network stack is implemented. So to understand the nature of packet flow from Higher to Lower bandwidth and vice-versa such as Lower to higher bandwidth, I thought I experiment with various tools and things which physically we can observe this phenomena.

Setting up a WAN Emulator within VirtualBox ↗
Sunday' 24-Jan-2021

Streaming CDN Types ↗
Sunday' 24-Jan-2021



Watch on Youtube - 280 WAN Optimization - Animated demo of Packet Optimization in TOFFEE-DataCenter ↗

Tracking Live Network Application Data - in a WAN Acceleration (WAN Optimization) Device ↗
Sunday' 24-Jan-2021



Research :: Optimization of network data (WAN Optimization) at various levels:
Network File level network data WAN Optimization


Learn Linux Systems Software and Kernel Programming:
Linux, Kernel, Networking and Systems-Software online classes [CDN]


Hardware Compression and Decompression Accelerator Cards:
TOFFEE Architecture with Compression and Decompression Accelerator Card


TOFFEE-DataCenter on a Dell Server - Intel Xeon E5645 CPU:
TOFFEE-DataCenter screenshots on a Dual CPU - Intel(R) Xeon(R) CPU E5645 @ 2.40GHz - Dell Server