Move notes on integer encoding.
parent
d93f0d3cb6
commit
2538533aee
|
|
@ -171,7 +171,7 @@
|
|||
"algorithms/binary-search.md": "08cb6dc2dfb204a665d8e8333def20ca",
|
||||
"_journal/2024-02-17.md": "7c37cb10515ed3d2f5388eaf02a67048",
|
||||
"_journal/2024-02/2024-02-16.md": "e701902e369ec53098fc2deed4ec14fd",
|
||||
"binary/integer-encoding.md": "fc9e88adabcbbf106c50718016e238c7",
|
||||
"binary/integer-encoding.md": "193566bf1b9e88257002d32bb2bc0bf2",
|
||||
"combinatorics/index.md": "f9de9671fdb6068ef2bb5e63051734be",
|
||||
"_journal/2024-02-18.md": "67e36dbbb2cac699d4533b5a2eaeb629",
|
||||
"_journal/2024-02/2024-02-17.md": "7c37cb10515ed3d2f5388eaf02a67048",
|
||||
|
|
|
|||
|
|
@ -108,21 +108,9 @@ Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Program
|
|||
<!--ID: 1708455064696-->
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
What does $TMin_w$ evaluate to?
|
||||
Back: $-2^{w-1}$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708545383252-->
|
||||
END%%
|
||||
### Unsigned Encoding
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
What does $TMax_w$ evaluate to?
|
||||
Back: $2^{w-1} - 1$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708545383255-->
|
||||
END%%
|
||||
Always represents nonnegative numbers. Given an integral type $\vec{x}$ of $w$ bits, we convert binary to its unsigned encoding with: $$B2U_w(\vec{x}) = \sum_{i=0}^{w-1} 2^ix_i$$
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
|
|
@ -140,29 +128,9 @@ Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Program
|
|||
<!--ID: 1708545383258-->
|
||||
END%%
|
||||
|
||||
### Unsigned Encoding
|
||||
|
||||
Always represents nonnegative numbers. Given an integral type $\vec{x}$ of $w$ bits, we convert binary to its unsigned encoding with: $$B2U_w(\vec{x}) = \sum_{i=0}^{w-1} 2^ix_i$$
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
What is the largest unsigned value an integral type of $w$ bits can encode?
|
||||
Back: $2^w - 1$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708177246119-->
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
What is the smallest unsigned value an integral type of $w$ bits can encode?
|
||||
Back: $0$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708177246123-->
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
What half-open interval represents the possible $w$-bit unsigned values?
|
||||
What half-open interval represents the possible $w$-bit unsigned decimal values?
|
||||
Back: $[0, 2^w)$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708177246128-->
|
||||
|
|
@ -186,7 +154,7 @@ END%%
|
|||
|
||||
%%ANKI
|
||||
Basic
|
||||
What is the decimal expansion of unsigned type $1010_2$?
|
||||
What is the decimal expansion of unsigned integer $1010_2$?
|
||||
Back: $2^3 + 2^1 = 10$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708177246143-->
|
||||
|
|
@ -302,23 +270,23 @@ Represents negative numbers along with nonnegative ones. Given an integral type
|
|||
|
||||
%%ANKI
|
||||
Basic
|
||||
What is the largest two's-complement value an integral type of $w$ bits can encode?
|
||||
Back: $2^{w-1} - 1$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708179147807-->
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
What is the smallest two's-complement value an integral type of $w$ bits can encode?
|
||||
What does $TMin_w$ evaluate to?
|
||||
Back: $-2^{w-1}$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708179147810-->
|
||||
<!--ID: 1708545383252-->
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
What half-open interval represents the possible $w$-bit two's-complement values?
|
||||
What does $TMax_w$ evaluate to?
|
||||
Back: $2^{w-1} - 1$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708545383255-->
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
What half-open interval represents the possible $w$-bit two's-complement decimal values?
|
||||
Back: $[-2^{w-1}, 2^{w-1})$
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708177246128-->
|
||||
|
|
@ -507,7 +475,7 @@ Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Program
|
|||
<!--ID: 1708453398469-->
|
||||
END%%
|
||||
|
||||
The "two's-complement" of an integer often refers to the binary representation of the integer's additive inverse. For example, $0110_2 = 6$ has two's-complement $1010_2 = -6$. In contrast, the "complement" of an integer is the other integer such that together add up to $2^{w-1}$. For example, $0110_2 = 6$ has complement $0010_2 = 2$ (with respect to $2^3 = 8$).
|
||||
The "two's-complement" of an integer often refers to the binary representation of the integer's additive inverse. For example, $0110_2 = 6$ has two's-complement $1010_2 = -6$. In contrast, the "complement" of a nonnegative integer is the other nonnegative integer such that together add up to $2^{w-1}$. For example, $0110_2 = 6$ has complement $0010_2 = 2$ (with respect to $2^3 = 8$).
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
|
|
@ -517,14 +485,6 @@ Reference: “Two’s-Complement.” In *Wikipedia*, January 9, 2024. [https://e
|
|||
<!--ID: 1708545383262-->
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
In two's-complement, how many negative values can be encoded compared to nonnegative values?
|
||||
Back: The same amount.
|
||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||
<!--ID: 1708545383264-->
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Cloze
|
||||
In two's-complement, the {sign bit} partitions the encoding range into two sets.
|
||||
|
|
@ -556,6 +516,12 @@ Reference: “Two’s-Complement.” In *Wikipedia*, January 9, 2024. [https://e
|
|||
<!--ID: 1708545383270-->
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Cloze
|
||||
$TMin$ is called the "{weird number}" because {it is it's own two's-complement}.
|
||||
Reference: “Two’s-Complement.” In *Wikipedia*, January 9, 2024. [https://en.wikipedia.org/w/index.php?title=Two%27s_complement&oldid=1194543561](https://en.wikipedia.org/w/index.php?title=Two%27s_complement&oldid=1194543561).
|
||||
END%%
|
||||
|
||||
%%ANKI
|
||||
Basic
|
||||
What is the result of applying the two's-complement operation on $TMin$?
|
||||
|
|
|
|||
Loading…
Reference in New Issue