computer architecture FEB 10

• Rotation speed: 7200 rpm; 
• Number of tracks on one side of platter: 30,000
• Number of sectors per track: 600; 
• Seek time: one ms for every hundred tracks traversed. 
• Assumption: Let the disk receive a request to access a random sector on a random track and assume the disk head starts at track 0.

 What is the average seek time? 

*

**Explain your reasoning and show your mathematical calculations on how you derived your answer 

6.Consider a single-platter disk with the following parameters:

Rotation speed: 7200 rpm; 
Number of tracks on one side of platter: 30,000
Number of sectors per track: 600; 
Seek time: one ms for every hundred tracks traversed. 
Assumption: Let the disk receive a request to access a random sector on a random track and assume the disk head starts at track 0.

What is the average rotational latency?

***Explain your reasoning and show your mathematical calculations on how you derived your answer 

7.Consider a single-platter disk with the following parameters:

Rotation speed: 7200 rpm; 
Number of tracks on one side of platter: 30,000
Number of sectors per track: 600; 
Seek time: one ms for every hundred tracks traversed. 
Assumption: Let the disk receive a request to access a random sector on a random track and assume the disk head starts at track 0.

What is the transfer time for a sector?

***Explain your reasoning and show your mathematical calculations on how you derived your answer 

8.Consider a single-platter disk with the following parameters:

Rotation speed: 7200 rpm; 
Number of tracks on one side of platter: 30,000
Number of sectors per track: 600; 
Seek time: one ms for every hundred tracks traversed. 
Assumption: Let the disk receive a request to access a random sector on a random track and assume the disk head starts at track 0.

What is the total average time to satisfy a request? 

***Explain your reasoning and show your mathematical calculations on how you derived your answer 

9.Consider a magnetic disk drive with 8 surfaces, 512 tracks per surface, and 64 sectors per track. 

• Sector size = 1 kB. 
• Average seek time = 8 ms, 
• Track-to-track access time = 1.5 ms, 
• Drive rotates at 3600 rpm. 
• Successive tracks in a cylinder can be read without head movement. 

What is the disk capacity?

**Explain your reasoning and show your mathematical calculations on how you derived your answer 

10.Consider a magnetic disk drive with 8 surfaces, 512 tracks per surface, and 64 sectors per track. 

Sector size = 1 kB. 
Average seek time = 8 ms, 
Track-to-track access time = 1.5 ms, 
Drive rotates at 3600 rpm. 
Successive tracks in a cylinder can be read without head movement. 
• What is the average access time?
  **Explain your reasoning and show your mathematical calculations on how you derived your answer  

11. Consider a magnetic disk drive with 8 surfaces, 512 tracks per surface, and 64 sectors per track. 

Sector size = 1 kB. 
Average seek time = 8 ms, 
Track-to-track access time = 1.5 ms, 
Drive rotates at 3600 rpm. 
Successive tracks in a cylinder can be read without head movement. 

Assume this file is stored in successive sectors & tracks of successive cylinders, starting at sector 0, track 0, of cylinder i. 

Estimate the time required to transfer a 5-MB file.

**Explain your reasoning and show your mathematical calculations on how you derived your answer 

12. Consider a magnetic disk drive with 8 surfaces, 512 tracks per surface, and 64 sectors per track. 

Sector size = 1 kB. 
Average seek time = 8 ms, 
Track-to-track access time = 1.5 ms, 
Drive rotates at 3600 rpm. 
Successive tracks in a cylinder can be read without head movement. 

What is the burst transfer rate? 

**Explain your reasoning and show your mathematical calculations on how you derived your answer 

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