Magnetic disk is a storage device commonly known as a hard disk.
Read-write head is responsible for reading and writing data on the magnetic disk.
There are two types of heads in a hard disk: fixed head and moving head.
π Harddisk with moving head is slower than harddisk with fix head because the moving head needs to change its position to read and write data.
π Shock Protection System (SPS) technology reduces the risk of damage to harddisks caused by unintentional shocks.
π Smart technology allows harddisks to communicate with computers, perform self-checks, and provide reports on their condition.
π Solid State Disks (SSD) offer faster data reading and writing speeds compared to harddisks with magnetic disks.
π Magnetoresistive head technology replaces the older inductive head technology in harddisks, allowing for simultaneous read and write processes.
β¨ The video discusses various technologies and algorithms related to disk scheduling.
π‘ One of the technologies mentioned is Maximum Likelihood, which converts analog data to digital data, resulting in higher data density and increased data storage capacity.
π Hotswap and plug n play are popular features that allow users to add hardware to a computer without turning it off and easily configure and use the new hardware.
π± Environment Protection Agency (EPA) is a technology that helps save energy by enabling power-saving features in hard disks.
π§ Error Correction Code (ECC) is a technology that can correct reading errors in magnetic disks without having to reread the entire track and sector.
β‘οΈ Auto transfer is a method that accelerates data transfer from a hard disk to the main memory by using parallel read and write commands.
π Data transfer can be accelerated by utilizing third-party servers with advanced features.
π½ The last topic discussed is disk access, which includes algorithms for service order and backup during reading.
β‘οΈ The first algorithm discussed is the First-Come-First-Served (FCFS) algorithm, which serves the first request in the queue.
π The video discusses disk scheduling algorithms, specifically focusing on the SCAN algorithm.
βοΈ The SCAN algorithm prioritizes accessing the nearest and furthest tracks from the initial position of the read head.
π‘ Another disk scheduling algorithm mentioned is the LRU algorithm, which moves the read head up to the largest track and then down to the smallest track.
π The video discusses different disk scheduling algorithms, including FCFS, SSTF, SCAN, C-SCAN, LOOK, and C-LOOK.
π The algorithms FCFS and SSTF access tracks in the order they appear, while SCAN and C-SCAN scan from one end to the other and then retreat.
βοΈ LOOK and C-LOOK move towards the closest track and skip tracks that have already been accessed.
π Disk scheduling algorithms determine the order in which disk requests are processed.
β© The circular scan algorithm is similar to the scan algorithm, where the head moves from the starting position to the largest track, accessing all the tracks in between.
π Once the head reaches the largest track, it moves directly to the smallest track without accessing any tracks in between.
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