This question is incomplete. The complete question is given below:
Your company has just brought a new 22-core processor, and you have been tasked with optimizing your software for this processor. You will run four applications on this system, but the resource requirements are not equal. Assume the system and application characteristics listed in table 1.1
Table 1.1 Four Applications
Application
A
B
C
D
% resources needed
41
27
18
14
% parallelizable
50
80
60
90
The percentage of resources of assuming they are all run in serial. Assume that when you parallelize a portion of the program by X, the speedup for that portion is X.
a. How much speedup would result from running application A on the entire 22-core processor, as compared to running it serially?
Answer:
Speedup = 50
Explanation:
- The speedup for that portion is x if we parallelize a portion of that program by X.
- If the whole program has no parallelize portion or in other words the whole program is running serially then the speedup will be zero.
- So in this scenario if parallelizable portion of A is 50% so according to above description the speedup is 50.
Explanation:
step 1: Type the normal letter A
step 2: Go to insert and press on equation with a pi sign on you far right.
step 3: Then press on accent, represented by a letter ä on your far right
step 4: on Accent you can choose the option that has an arrow on top of the block.
I hope this makes sense
:)
Answer: An <em>IP</em> address is commonly referred to as an accredited series of numbers, disjointed by periods, this eventually provides an address on web. In laymen terms, an IP address is commonly known as a numerical label accredited to a device that is connected to a network which uses the IP for communication.
Answer:
IBM PC compatible computers are computers similar to the original IBM PC, XT, and AT that are able to use the same software and expansion cards. Such computers were referred to as PC clones, or IBM clones
I believe the answer is a. CDMA rooms can store much more information than DVDS. good luck
