HW10: done 2.4
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\documentclass[12pt]{article}
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\documentclass[12pt]{article}
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\title{Assignment 10}
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\title{Computer Architecture -- Assignment 10}
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\author{Claudio Maggioni \and Tommaso Rodolfo Masera}
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\author{Claudio Maggioni \and Tommaso Rodolfo Masera}
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\date{}
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\date{}
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@ -116,4 +116,17 @@ $1010011010.01000000000000\ =\ 2^9\ +\ 2^7\ +\ 2^4\ +\ 2^3\ +\ 2^1 +\ 2^{-2}\ =\
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\subsection{Exercise 2.4}
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\subsection{Exercise 2.4}
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In order to compute the number of IEEE 754 single-precision floating point numbers between 0 and 1 (both included), we first consider
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a constant positive ($= 1$) sign bit (and therefore we do not count it in our calculation of possible permutations).
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Then we count the number of denormalized numbers (including 0), which is: $2^{23} = 8388608$.
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After that, we count the number of valid from $2^{126}$ to $2^{1}$ included, which is 126. All these exponents will generate
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a number $< 1$ even with the highest possible mantissa. Then, we compute the number of numbers with these exponents, equal to:
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$126 * 2^{23} = 1056964608$.
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Finally, we consider the number 1 itself (0x3f800000) and we sum all the combinations: $8388608 + 1056964608 + 1 = 1065353217$
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Therefore, there are 1065353217 IEEE 754 single-precision floating point numbers between 0 and 1 (both included).
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\end{document}
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\end{document}
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