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Showing posts from January, 2024

DOS AND DDOS ATTACK

A Dos (Denial-Of-Service) Attack and A DDOS (Distributed Denial-Of-Service) Attack Are Both Attempts to Make a Computer System or Network Resource Unavailable to Legitimate Users. However, They Differ in How They Achieve This: Dos Attack: Imagine A Single Person Throwing Rocks at A Castle Gate. A This Person Represents the Attacker, And the Rocks Represent the Malicious Traffic. The Castle Gate Represents the Target System or Network Resource. The Attacker Keeps Throwing Rocks, Trying to Overwhelm the Gate's Defenses and Gain Entry. Dos Attacks Are Typically Launched from A Single System. They Can Be Effective Against Small Systems or Networks, But Larger Systems Can Often Withstand Them. DDos Attack: Imagine An Army Throwing Rocks at A Castle Gate. This Army Represents the Attacker, And the Rocks Represent the Malicious Traffic. The Castle Gate Represents the Target System or Network Resource. The Attackers Coordinate Their Attack, Throwing Rocks from Multiple Directions at Once.

FIT AND FAT AND MACC MODE AP

FAT (Fat AP): INDEPENDENT OPERATION: Works without any central controller. FULL FUNCTIONALITIES: Offers built-in features like DHCP server, firewall, and VPN functionalities. WAN PORT: Typically has a WAN port for direct internet connection. CONFIGURATION AND MANAGEMENT: Each AP needs individual configuration and management. SCALABILITY: Limited scalability for large networks. IDEAL FOR: Small office/home networks with limited users and devices. FIT (Fit AP): MANAGED BY CONTROLLER: Requires a Wireless LAN Controller (WLC) for centralized management and control. SIMPLIFIED CONFIGURATION: Configuration and updates pushed from the WLC. SCALABILITY: Highly scalable for large networks with many APs and users. LOWER COST PER AP: Usually cheaper than FAT APs due to relying on the WLC for some functionalities. SINGLE POINT OF CONTROL: Easier to manage and monitor the entire network from the WLC. IDEAL FOR: Enterprise and educational networks with high us

BRIDGE MODE AND NAT MODE AP

BOTH BRIDGE MODE AND NAT MODE ARE WAYS TO CONFIGURE AN ACCESS POINT (AP) TO EXTEND A NETWORK, BUT THEY DIFFER IN HOW THEY HANDLE IP ADDRESSES AND NETWORK TRAFFIC: BRIDGE MODE: CONCEPT: ACTS AS A TRANSPARENT BRIDGE, SIMPLY RELAYING DATA BETWEEN WIRED AND WIRELESS DEVICES. IP ADDRESS: DEVICES OBTAIN THEIR IP ADDRESSES FROM AN UPSTREAM DHCP SERVER, TYPICALLY THE MAIN ROUTER ON THE NETWORK. NETWORK TRAFFIC: ALL DEVICES, BOTH WIRED AND WIRELESS, ARE SEEN AS PART OF THE SAME NETWORK AND CAN DIRECTLY COMMUNICATE WITH EACH OTHER. BENEFITS: SEAMLESS ROAMING: DEVICES CAN EFFORTLESSLY SWITCH BETWEEN APS WITHOUT LOSING THEIR IP ADDRESS OR CONNECTION. SIMPLIFIED NETWORK MANAGEMENT: ALL DEVICES ARE ON THE SAME SUBNET, MAKING CONFIGURATION AND TROUBLESHOOTING EASIER. INCREASED COMPATIBILITY: WORKS WITH DEVICES THAT DON'T SUPPORT NAT TRAVERSAL (E.G., SOME VPN CLIENTS). DRAWBACKS: LESS SECURITY : ALL DEVICES ARE DIRECTLY EXPOSED TO EACH OTHER, POTENTIALLY INCREAS

DIFFERENCE BETWEEN SINGLE AND MULTIMODE FIBER

SINGLE-MODE FIBER: SUPPORTS ONLY ONE MODE OF LIGHT, MEANING LIGHT TRAVELS THROUGH THE CORE IN A STRAIGHT PATH. HAS A SMALLER CORE DIAMETER, TYPICALLY AROUND 9 MICROMETERS. OFFERS HIGHER BANDWIDTH AND LONGER TRANSMISSION DISTANCES, UP TO 100 KILOMETERS OR MORE. USED FOR LONG-HAUL APPLICATIONS SUCH AS TELECOMMUNICATIONS, DATA CENTERS, AND CABLE TV. MORE EXPENSIVE THAN MULTIMODE FIBER. MULTIMODE FIBER: SUPPORTS MULTIPLE MODES OF LIGHT, ALLOWING LIGHT TO TRAVEL THROUGH THE CORE AT DIFFERENT ANGLES. HAS A LARGER CORE DIAMETER, TYPICALLY 50 OR 62.5 MICROMETERS. OFFERS LOWER BANDWIDTH AND SHORTER TRANSMISSION DISTANCES, TYPICALLY UP TO 500 METERS. USED FOR SHORT-DISTANCE APPLICATIONS SUCH AS LANS, BUILDING BACKBONES, AND MEDICAL DEVICES. LESS EXPENSIVE THAN SINGLE-MODE FIBER. _____________