please make sure the answer is clear. 3. Given X (0100 0010 0000 1111 0000 0000...
Given X = (0100 0010 0000 1111 0000 0000 0000 0000)2 and Y = (0100 0001 1010 0100 0000 0000 0000 0000)2 in single precision IEEE-754 floating point numbers, perform the following operations. Show all of your work and express the final answer in single precision IEEE 754-floating point representation. 1. X+Y 2. X*Y Hint: show each value in binary normalized scientific notation prior to performing the arithmetic. This should make following the algorithms easier. Rubric: Shows X and Y...
Given A = (1111 0011 1100 0011 1100 0000 0000 0000)2 and assuming A is a single precision IEEE-754 floating point number, what decimal value does A represent? Show A in normalized scientific notation: 1.X * 2Y. Convert (28.4)10 to IEEE-754 single-precision binary. Given X = (0100 0010 0000 1111 0000 0000 0000 0000)2 and Y = (0100 0001 1010 0100 0000 0000 0000 0000)2 in single precision IEEE-754 floating point numbers, perform the following operations. Show all of your...
1 please IEEE-754 Floating point conversions problems (assume 32 bit machine): 1. For IEEE 754 single-precision floating point, write the hexadecimal representation for the following decimal values: a. 27.1015625 b.-1 2. For IEEE 754 single-precision floating point, what is the decimal number, whose hexadecimal representation is the following? a. 4280 0000 b. 7FE4 0000 c. 0061 0000 3. For IEEE-754 single-precision floating point practice the following problem: Suppose X and Y are representing single precision numbers as follows: X 0100...
For IEEE 754 single precision floating point, what is the number, as written in binary scientific notation, whose hexadecimal representation is the following? Show your work B350 0000 (hex)
53. For IEEE 754 single precision floating point, what is the number, as written in binary scientific notation, whose hexadecimal representation is the following? *(a) 4280 0000 (b) B350 0000 (c) 0061 0000 (d) FF80 0000 (e) 7FE4 0000 (f) 8000 0000
Convert the IEEE 754 single-precision floating-point number 8000000F16 to binary expressed in normalized scientific notation. Hint 8000000F16 is a denormalized number. Please show steps.
Given the interpretation and the word(s), tell what characters or decimal numbers are stored in main memory by the designated word(s). We assume our computer uses 8 bits for characters and 16 bits for binary integers: (show your work) Word I 1011 0010 0010 0000 Word II 0100 1001 0101 0010 1) Binary Integer - Word I 2) Character (ASCII) – Word II _____________________________________________________________________________________________________________________________________________________ For the following problems, assume that our computer uses 16 bits for binary integers. Find the...
Q1) Convert the following negative decimal numbers to 8 bit binary using the 2’s complement (show the steps): a) -39 b) -127 Q2) Solve the following subtraction problems using 2's complement representation. (Show the steps using 8-bits) a) 19 – 87 b) 89 – 5 Q3) Convert the following numbers into scientific notation: (Note: to show ten raised to the power of n, you can type as 10^n) a) 654.345 b) 0.000000324235 c) 25600000000000 Q4) Convert the following numbers out...
6. Convert .3710 to a binary fraction of 10 binary digits. 7. Use two's compliment arithmetic to perform the following 8 bit binary operations. a. 0010 1110 + 0001 1011 b. 0101 1101 – 0011 1010 c. 1011 1000 – 1000 1011 d. 1000 1100 – 1111 0111 8. Convert 150.8476562510 to IEEE Floating Point Standard. 9. Simplify the following Boolean expressions. a. xy + xy + xz b. (w + x)(x + y)(w + x + y + z)...
Please give me First and second answer. If you don't mind please check my 3rd question is this my question is right or wrong. Thanks Show how each of the following floating point values would be stored using IEEE-754 single precision (be sure to indicate the sign bit, the exponent, and the significand fields): (show your work) 12.5 −1.5 0.75 26.625 ______________________________________________________________________________ Show how each of the following floating point values would be stored using IEEE-754 double precision (be sure...