The cables are thinner so they don't hinder airflow inside the case.
Serial ATA are thin cables that don't hinder airflow inside a case as much as the wide parallel ATA cables do.
The cables are smaller and allow for better airflow Because serial ATA cables are thinner, They do not hinder air flow as much as wider parallel ATA cables
Neither. A computer case is just a box to hold the parts of a computer. It provides no form of communication itself.
"The thinner serial-ATA cable does not hinder airflow within the case" info from Jean Andrews CompTIA A+ Guide to Hardware Fourth Edition
computer buses were literally parallel electrical wires with multiple connections, but the term is now used for any physical arrangement that provides the same logical functionality as a parallel electrical bus. Modern computer buses can use both parallel and bit serial connections, and can be wired in either a multidrop (electrical parallel) or daisy chain topology, or connected by switched hubs, as in the case of USB.
With a Microcontroller look at it serial would be better than parallel when you have very few I/O pins or when you want to reserve extra I/O pins for other purposes.A cost-of-wire approach would prove that serial is better because the fewer wires would have a lower cost then that of parallel communicationComputer case airflow would also indicate that serial can be better. With multiple harddrives in a computer sata cables will not disrupt the airflow as much as their much larger PATA flat cable counterparts. Although depending on where components are located and what type of cooling is used would be factors for this argument.
A Parallel bus has a relatively large number of wires bundled together that enable data to be transferred in parallel. This increases the throughput, or rate of data transfer, between the peripheral and the computer. A Serial bus can be defined as a transmission path over which the participants transmit their data serially, sequentially in time, and using a common medium. In the case of serial transmission, only a single communication link for transferring data from any given end to another one. In the case of parallel transmission, we use multiple numbers of parallel links for the simultaneous transmission of all the data bits in the network.
There is always one on the back of the cover or in the inside the case there is a instruction manual and there is a serial number in that or on the back of it
Another advantage of serial ATA is the thin cables don't hinder airflow inside a casde as much as the wide parellel ATA cables do.
ide means integrated device electronics which means it's integrated into the system and thus for uses more resources and is less powerful then serial
The difference is that serial transmissions only use 2 wires for transmitting and receiving data, and only 1 for sending or receiving, and can only send one bit at a time. Parallel cables use several wires for data transmission and is much faster than serial thus 8 or more wires are carrying data *parallel* to each other to it's destination. serial data data (8 bits) transmit -----------010101010-----------------> single line to transmit on receive <--------------------------- single line to receive on Parallel data (80 bits) transmit multiple lines simultaneously ---- 010101001-----------> -----------010101010-----------> -----------010101010-----------> -----------010101001-----------> -----------010101010-----------> -----------010101010-----------> -----------010101001-----------> -----------010101010-----------> -----------010101010-----------> -----------010101001----------->
Parallel projection does not produces realistic views whereas perspective projection produces realistic viewin parallel projection lines of projection are parallel whereas in perspective projection lines are not parallel and the point where these lines meets is called ceter of projection in case of perspective projection