Consider a cryptosystem applies left shift operation, XOR and Initial permutation forencryption. Use the following IP for bit mapping as shown in following Table II.Table IIInitial Permutation585042 34 261810 | 2 60 | 52 | 44 36282012 | 4625446 38 30 2214 664 56 48 4032 2416849 41 33 25 1753 45 37 29 21579.159 51 43 35 27 19| 1136113 5 63 55 47 393123157Note: The positions of IP follows the row-major order.Input M, is taken as hex code "“A000000100000000"Stage 1: Convert the input into binary (M)2.Stage 2: Then apply XOR using the hex code "0010000100000010".Stage 3: Find the output of the IP.Represent the output of the each stage in Hex code and display in Table III.Table IIIStage1Output (Hex code)3

Block Ciphers Map n-bit plaintext blocks to n-bit ciphertext blocks (n = block length). For n-bit…

Answered: Consider a cryptosystem applies left…

Computer Networking: A Top-Down Approach (7th Edition)

7th Edition

ISBN:9780133594140

Author:James Kurose, Keith Ross

Publisher:James Kurose, Keith Ross

Chapter1: Computer Networks And The Internet

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Problem R1RQ: What is the difference between a host and an end system? List several different types of end...

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For a 5-bit (VWXYZ) even parity generator, what is the value of parity bit (P) if V=W=X=Y=Z="1", and what is the value of parity error checker (C) ? * P=0, C=1 P=1, C=0 P=1, C=1 P=((V XOR W) XOR (X XNOR Y)) XOR (Z), C= (V XOR W) XOR (X XNOR Y) XOR (Z XOR P) P=0, C=0 P=((V XNOR W) XOR (X XOR Y)) XOR (Z), C= (V XNOR W) XOR (X XOR Y) XOR (Z XOR P)
In this problem we will work through a round of DES. For notational simplicity, assume it is the first round. Please enter all answers as strings of 0's and 1's. The input is the 64 bit block 0000000000000010000000000000001000000100000001000100000000000000 Suppose that the subkey for the current round is this 48 bit number: 000000000000000001000000000000000000000000000000 What does the 64 bit state look like after the IP transformation is applied to the input? 00000000000110000100000000000000 Now find Lo and Ro, the left and right halves of the state. Lo 01000000010000000000000000010000 = Ro=00000000000000100000000000000000 What is the result of applying the expansion box to R₁? E(Ro) = 00000000000000100000000000000000 What is the result of XORing the subkey with E(Ro)? k₁ E(Ro) = 00000000000000100000000000000000 We now apply the S-box transformation. S(k₁ E(Ro)) = 11011000110110001101111110111100 Finally we apply the permutation box to complete the function f. f(Ro) = P(S(k₁ + E(Ro)))…
Let A be the set of all strings of 0's and 1's, and let T be the set of all strings of 0's and 1's that consist of consecutive triples of identical bits. Consider the coding and decoding functions E and D defined below : Find E (0110) and D (111111000111). E (0110)=? D (111111000111)=?
In the hamming code C (7, 4), three redundant bits are generated as follows:0 2 1 0 r = a ⊕ a ⊕ a1 3 2 1 r = a ⊕ a ⊕ a2 3 1 0 r = a ⊕ a ⊕ a
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Suppose that we have the following 128-bit AES key, given in hexadecimalrepresentation:54 77 6F 20 4F 6E 65 20 4E 69 6E 65 20 54 77 6F Construct the round key for the first round.
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Use A-1 to decode the cryptogram. 2 0 1 0 1 2 -9 66 27 -101 37 5 -34 61 46 -188 46 -14 9 94 21 -139 32 -4 12 66 31 -143 47 33 -162 32 19 -126 43 -9 -45 68 23 -104 A = N NH 2 -1
In AES cryptography, what is the rationale for the bit scrambling step that is used for finding the replacement byte that goes into each cell of the S-box table?
For AES with a 128 bit block length and a 128-bit key length, what is the output of the first round of AES if the plaintext consists of 128 1's and the first subkey also consists of 128 zeroes
Assume the following parameters for Selective Repeat (SR): a) N = 4 b) Round Trip Time (RTT) = 10 ms c) Timeout period = 40 ms d) Segment Size = 2200 bytes. Suppose that Bob sent 14 segments, numbered 1 to 14, to Alice using the SR mechanism. Suppose that Segment 4 and Segment 10 were lost the first time the segments were sent to Alice (but reached Alice correctly when retransmitted). Apart from the above, there were no other segment losses. What is the average throughput obtained in sending all the segments (in bytes/sec)? Draw a diagram to show the communication of the segments in detail.
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