Most storage servers are based on _____.

Answers

Answer 1

Answer:

A lot of storage servers are based on the use of magnetic hard disks, and also the use of SSD and magnetic tape storage systems sometimes.

What is a server based storage?

Server-based storage is known to be a kind of class of data storage that tends to removes cost and difficulty by keeping storage media inside servers instead of a good custom-engineered storage arrays.

Note therefore, A lot of storage servers are based on the use of magnetic hard disks, and also the use of SSD and magnetic tape storage systems sometimes.

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Answer 2

Answer: most storage servers are based on magnetic hard disks

Related Questions

Two independent customers are scheduled to arrive in the afternoon. Their arrival times are uniformly distributed between 2 pm and 8 pm. Compute (a) the expected time of the first (earlier) arrival; (b) the expected time of the last (later) arrival.
Escribe the three different stages your résumé goes through when being submitted to an employer
____ refers to data, applications, and even resources stored on computers accessed over the Internet. Answera. Embedded computingb. The Ethernetc. Telecommutingd. Cloud computing
When you aline a table in relation to the content around it, what happens to the table's cells?
Which of the following cannot be done from the windows task manager? a. view what application are running in the background b.delete a program from the hard drive c.open program d.check recent cpu usage

Using the ipde process as your guide, explain how you can maintain a safe intended path of travel when visibility is reduced

Answers

Whenever visibility is reduced, drivers need more time to use the IPDE process and apply zone control driving techniques . You maintain a safe intended path of travel by slowing down to give yourself more time. In Zone Control System, drivers can lose control by not being able to manage the zones to the front, sides and rear of their car. They maintain control by attending to their Line-Of-Sight and Path-Of-Travel.

Moon Questions? (diagram attached)1. Approximately how many nights during the month would an observer be able to witness a waxing gibbous phase?

2. A full moon occurred on December 21st. State the date of the next full Moon in January.

3. How many days does it take for the Moon to revolve from position 8 to position 5?

4. State two specific motions that affect the daily locations of high and low tides of Earth.

5. Explain why no person on Earth would witness a lunar eclipse when the Moon is in position #4.

Answers

1). The waxing gibbous phase represents the portion of the cycle of phases
during which the moon appears more than half but less than fully lit, and is growing
as time goes on. In the picture, it's everything from position-3 to position-5. It's
one fourth of the entire cycle, which is 7.4 days, so you'd see it on 7 or 8 consecutive
nights.
(The complete cycle of phases is 29.53 days.)

2). The complete cycle of phases is 29.53 days. Any phase visible on December 21
is visible again on January 19 or January 20.

3). From position-8 to position-5 in the picture is 5/8 of all the way around.
(5/8) of (29.53) = 18.5 days.

4). The locations of high- and low-tides on the Earth are influenced by the position
of the moon and the rotation of the Earth.

5). A lunar eclipse is the result of the moon sailing into the Earth's shadow.
The Earth's shadow is out behind it, opposite to the sun, toward position-5
in the picture, not position-4.

Using the same formatting elements and designs across slides in a presentation is important to develop what vital quality?

Answers

I would say professional image - also the info is easier to digest if consistently presented

three analog signals, having bandwidths 1200 hz, 600 hz, and 600 hz are sampled at their respective nyquist rates, encoded with 12 bit words, and time division multiplexed. the bit rate for the multiplexed signal is

Answers

Answer:

57,600

Explanation:

The Nyquist rate for an analog signal is twice its bandwidth. Therefore, for the three signals:

Signal 1: 2 * 1200 Hz = 2400 samples per second

Signal 2: 2 * 600 Hz = 1200 samples per second

Signal 3: 2 * 600 Hz = 1200 samples per second

Since all three signals are sampled at their respective Nyquist rates and encoded with 12-bit words, we can calculate the bit rate for each signal:

Bit rate for Signal 1 = 2400 samples/second * 12 bits/sample = 28,800 bits/second

Bit rate for Signal 2 = 1200 samples/second * 12 bits/sample = 14,400 bits/second

Bit rate for Signal 3 = 1200 samples/second * 12 bits/sample = 14,400 bits/second

To find the total bit rate for the multiplexed signal, simply add up the bit rates of the three signals:

Total bit rate = Bit rate for Signal 1 + Bit rate for Signal 2 + Bit rate for Signal 3

Total bit rate = 28,800 bits/second + 14,400 bits/second + 14,400 bits/second

Total bit rate = 57,600 bits/second

So, the bit rate for the time-division multiplexed signal is 57,600 bits per second.

Final answer:

To determine the bit rate for the multiplexed analog signals, the combined bandwidth is multiplied by the Nyquist rate (2 times the bandwidth), and then by the number of bits in the chosen encoding method (12 bits). This results in a bit rate of 57,600 bits per second.

Explanation:

In this scenario, one of the keys is to be aware that the Nyquist rate for sampling an analog signal is twice the maximum frequency of the signal. Therefore, to find the bit rate for the multiplexed signal, we need to combine the three signals of 1200 Hz, 600 Hz, and 600 Hz. These add up to 2400 Hz, which would be the total bandwidth of the system.

The Nyquist rate equals 2 times the total bandwidth, resulting in 4800 samples per second. Given that the analog signals are encoded with 12-bit words, we multiply the total number of samples per second by 12 bits, which results in a bit rate for the multiplexed signal of 57,600 bits per second.

This is a common calculation in digital communication systems such as cell phone conversations and computer data transmission, where multiple signals are converted into binary, multiplexed, and transmitted over a shared medium.

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What term describes a set of software tools designed to increase the privileges of a user or to grant access to the user to portions of the operating system that should not normally be allowed?

Answers

Answer:

A rootkit is a collection of computer software, typically malicious, designed to enable access to a computer or an area of its software that is not otherwise allowed (for example, to an unauthorized user) and often masks its existence or the existence of other software.The term rootkit is a concatenation of "root" (the traditional name of the privileged account on Unix-like operating systems) and the word "kit" (which refers to the software components that implement the tool).

Learning Task 5. Identify the terms being described below. Write your answer in your answersheet.
1. This refers to the collection, transportation, processing or disposal, managing and
monitoring of waste materials.
2. This refers to the hazard control which involves the measure of replacing one hazardous
agent or work process with less dangerous one.
3. A very important method of controlling hazards which involves proper washing of your hair,
skin, body and even your clothes.
4. This refers to the preparedness for the first and immediate response in case of any type of
emergency.
5. This hazard control refers to the removal of a specific hazard or hazardous work process.
6. What is the term used to call the range of concentration over which a flammable vapor
mixed with air will flash or explode if an ignition is present?
7. A cross-disciplinary area concerned with protecting the safety, health and welfare of people
engaged in work or employment.
8. The term used in hazard control which involves changing a piece of machinery or work
process.
9. The term used to call any piece of equipment which is used to protect the different parts of
the body such as ears and eyes such as respirators, face mask, face shield, gloves, boots,
etcetera.
10. This is a form of hazard control which involves manipulation of worker/employee’s schedule
and job rotation.

Answers

Answer:

1. Waste management.

2. Substitution.

3. Personal hygiene practices.

4. Emergency preparedness.

5. Elimination.

6. Flammability limit.

7. Occupational safety and health (OSH).

8. Engineering controls.

9. Personal protective equipment (PPE).

10. Administrative controls.

Explanation:

1. Waste management: this refers to the collection, transportation, processing or disposal, managing and monitoring of waste materials.

2. Substitution: this refers to the hazard control which involves the measure of replacing one hazardous agent or work process with less dangerous one.

3. Personal hygiene practices: a very important method of controlling hazards which involves proper washing of your hair, skin, body and even your clothes.

4. Emergency preparedness: this refers to the preparedness for the first and immediate response in case of any type of emergency.

5. Elimination: this hazard control refers to the removal of a specific hazard or hazardous work process.

6. Flammability limit: is the term used to call the range of concentration over which a flammable vapor mixed with air will flash or explode if an ignition is present.

7. Occupational safety and health (OSH): a cross-disciplinary area concerned with protecting the safety, health and welfare of people engaged in work or employment.

8. Engineering controls: the term used in hazard control which involves changing a piece of machinery or work process.

9. Personal protective equipment (PPE): the term used to call any piece of equipment which is used to protect the different parts of the body such as ears and eyes such as respirators, face mask, face shield, gloves, boots, etcetera.

10. Administrative controls: this is a form of hazard control which involves manipulation of worker/employee’s schedule and job rotation.

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