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Diff for /OpenXM/doc/sci-semi2001/factorb.tex between version 1.4 and 1.7

version 1.4, 2001/07/25 05:44:01

version 1.7, 2001/07/28 06:37:40

Line 1

% $OpenXM: OpenXM/doc/sci-semi2001/factorb.tex,v 1.3 2001/07/24 09:35:54 noro Exp $

% $OpenXM: OpenXM/doc/sci-semi2001/factorb.tex,v 1.6 2001/07/28 03:31:10 noro Exp $

\Large

\parskip 0pt

Line 115 $\Rightarrow$ $B$3$l$G(B{\ec $B@0?t78?t$NB?9`<0$r?t

\begin{slide}{}

\fbox{\sc 3. $BB?9`<0$N0x?tJ,2r(B --- $BCf3X9b9;E*J}K!(B}

{

\Large\parskip 0pt

\begin{enumerate}

\item {\eec $B4cNOK!(B} ($B2r$H78?t$N4X78(B)

Line 135 $x^2+ax+b=0$ $B$N:,(B ${-b \pm \sqrt{a^2-4b}} \over

Line 132 $x^2+ax+b=0$ $B$N:,(B ${-b \pm \sqrt{a^2-4b}} \over

$\Rightarrow$ $a^2-4b = t^2$ ($t$ : $B@0?t(B) $B$H$+$1$k$+$I$&$+D4$Y$k(B

\end{enumerate}

}

\end{slide}

\begin{slide}{}

Line 161 $\Rightarrow$ {\bf \ec $x^2-t=0$ $B$N@0?t:,$rC5$9J}K!

Line 157 $\Rightarrow$ {\bf \ec $x^2-t=0$ $B$N@0?t:,$rC5$9J}K!

$\Rightarrow$ {\ec $B:,$rC5$9J}K!$,E,MQ$G$-$k(B}

{\eec $B:,5r(B : $BCf4VCM$NDjM}(B}

$B!V(B$f(a) < 0, f(b) > 0$ $B$J$i(B $a$, $b$ $B$N4V$K(B $f(c)=0$ $B$J$k(B $c$ $B$,$"$k(B.$B!W(B

\begin{itemize}

\item {\eec $BFsJ,K!(B}

{\eec $B:,5r(B : $BCf4VCM$NDjM}(B}

$B!V(B$f(a) < 0, f(b) > 0$ $B$J$i(B $a$, $b$ $B$N4V$K(B $f(c)=0$ $B$J$k(B $c$ $B$,$"$k(B.$B!W(B

$B6h4V$rH>J,$:$D69$a$FDI$$9~$`(B

\item {\eec Newton $BK!(B}

Line 204 $\Rightarrow$ {\ec $B:,$rC5$9J}K!$OE,MQ:$Fq(B}

Line 200 $\Rightarrow$ {\ec $B:,$rC5$9J}K!$OE,MQ:$Fq(B}

\begin{slide}{}

\fbox{\sc 4. $p$-$B?J6a;w$K$h$kB?9`<0$N0x?tJ,2r(B}

{\Large\parskip 0pt

\underline{\uc $B86M}(B} : {\eec $B@0?t(B $m$ $B$,(B 0} $\Leftrightarrow$

{\eec $m$ $B$O$I$s$J@0?t$G$b3d$j@Z$l$k(B}

({\eec $m$ $B$O==J,Bg$-$$@0?t$G3d$j@Z$l$k(B})

$B$?$H$($P(B,

\begin{enumerate}

Line 222 $h_1$ $B$r8+$D$1$k(B.

Line 215 $h_1$ $B$r8+$D$1$k(B.

$B=g<!:n$C$F$$$/(B ($k=2,3,\ldots$)

\item $g_1$, $h_1$ $B$,@52r$KBP1~$7$F$$$l$P(B, $BE,Ev$J(B $k$ $B$N$H$3$m$G$[$s$H$K3d$j@Z$l$k$@$m$&(B.

\end{enumerate}}

\end{enumerate}

\end{slide}

\begin{slide}{}

Line 289 $p = 3$ $B$H$9$k$H(B $a_0(x)=x^4+x^3+x+2$

Line 282 $p = 3$ $B$H$9$k$H(B $a_0(x)=x^4+x^3+x+2$

\end{slide}

\begin{slide}{}

\underline{\uc $f(x)$ $B$N(B $3$-$B?JE83+(B}

$f(x)=(x^4+x^3+x+2)+3^1\cdot x+$

$3^2(2x^3+x+2)+

3^3(x^3+x^2+2x+2)+$

$3^4(x^2+x+1)+

3^5 \cdot x^3+

3^6(2x^3+x+2)+$

$3^7(x^3+x^2+x)+

3^8(2x^3+x^2+2x)+$

$3^9(x^2+2x+1)+

3^{11}(2x^2+x+1)+$

$3^{12}(x^2+2x+1)+

3^{13}(x+1)+

3^{14} \cdot 2+$

$3^{15}(2x^2+x+2)+

3^{16}(x^2+2)+

3^{17} \cdot 2+$

$3^{19} \cdot 2+

3^{20}(x+2)+

3^{21} \cdot 2$

\end{slide}

\begin{slide}{}

\underline{\uc $B0l<!0x;R$,$"$k$+(B?}

{\ec $b_0(x) = x+q$},

Line 338 $q$, $r$, $s$, $t$ $B$K(B 0, 1, 2 $B$NCM$rF~$l$F$_$

Line 362 $q$, $r$, $s$, $t$ $B$K(B 0, 1, 2 $B$NCM$rF~$l$F$_$

\begin{slide}{}

\underline{\uc $BFs<!0x;R$D$E$-(B --- $b_1$, $c_1$ $B$,K~$?$9>r7o(B}

{\Large\parskip 0pt

{\eec $b_0 = x^2+1$},

{\eec $c_0 = x^2+x+2$} $B$H$9$k$H(B

Line 356 $(b_0${\ec$c_1$}$+c_0${\ec$b_1$}$))\bmod 3$

Line 379 $(b_0${\ec$c_1$}$+c_0${\ec$b_1$}$))\bmod 3$

$B:8JU$O(B $3$ $B$G2?2s$G$b3d$l$k(B $\Rightarrow$ $B1&JU$O(B $3$ $B$G3d$l$k(B

$BJd@59`(B {\ec $b_1$}, {\ec $c_1$} : $x^2$ $B$N78?t$O(B 0 $B$H$7$F$h$$(B}

$BJd@59`(B {\ec $b_1$}, {\ec $c_1$} : $x^2$ $B$N78?t$O(B 0 $B$H$7$F$h$$(B

\end{slide}

\begin{slide}{}

\underline{\uc $BFs<!0x;R$D$E$-(B --- $b_1$, $c_1$ $B$,K~$?$9J}Dx<0(B}

{\Large\parskip 0pt

{\ec $b_1 = qx+r$},

{\ec $c_1 = sx+t$} $B$H$*$/(B.

Line 385 $2r+t \equiv 0 \bmod 3$}

Line 407 $2r+t \equiv 0 \bmod 3$}

$B$3$s$I$OO"N)0l<!J}Dx<0(B($B9gF1<0(B). $B$3$l$r2r$/$H(B

{\eec $(q,r,s,t) = (0,1,0,1)$} $B$9$J$o$A(B {\eec $b_1 = 1$}, {\eec $c_1 = 1$}}

{\eec $(q,r,s,t) = (0,1,0,1)$} $B$9$J$o$A(B {\eec $b_1 = 1$}, {\eec $c_1 = 1$}

\end{slide}

\begin{slide}{}

\underline{\uc $BFs<!0x;R$D$E$-(B --- $b_k$, $c_k$ $B$bF1MM(B}

\underline{\uc $BFs<!0x;R$D$E$-(B --- $b_2$, $c_2$ $B$O(B $\bmod 3^3$ $B$G(B}

{\Large\parskip 0pt

$B$3$l$G(B, {\eec $f \equiv (b_0+3b_1)(c_0+3c_1) \bmod 3^2$}

$B$3$l$G(B,

\centerline{\eec $f \equiv (b_0+3b_1)(c_0+3c_1) \bmod 3^2$}

$B<!$O(B $a_2$, $b_2$, $c_2$ $B$^$G$H$C$F(B $\bmod 3^3$ $B$G8+$k(B

\centerline{\eec $f \equiv a_0+3a_1+3^2a_2 \bmod 3^3$}

\centerline{\ec $f \equiv (b_0+3b_1+3^2b_2)(c_0+3c_1+3^2c_2) \bmod 3^3$}

$B$+$i(B {$((a_0+3a_1)-(b_0+3b_1)(c_0+3c_1))+$}

\centerline{$3^2(a_2-(c_0b_2+b_0c_2)) \equiv 0 \bmod 3^3$}

$BN>JU$r(B $3^2$ $B$G3d$C$F(B, {\ec $b_2=qx+r$}, {\ec $c_2=sx+t$}

$\Rightarrow$ $BA0$HF1MM$K(B{\eec $BO"N)0l<!9gF1<0(B}$B$rF@$k(B

\end{slide}

\begin{slide}{}

\underline{\uc $BFs<!0x;R$D$E$-(B --- $b_k$, $c_k$ $B$bF1MM(B}

$B0J2<F1MM$K(B,

\centerline{\ec $b_i = qx+r, c_i = sx+t$}

Line 410 $2r+t \equiv 0 \bmod 3$}

Line 448 $2r+t \equiv 0 \bmod 3$}

\centerline{\eec $f \equiv g_kh_k \bmod 3^k$}

$B$H$J$k(B $g_k, h_k$ $B$,7h$^$k(B. }

$B$H$J$k(B $g_k, h_k$ $B$,7h$^$k(B.

\end{slide}

\begin{slide}{}

Line 587 $\Rightarrow$ $B7W;;5!$N%Q%o!<$@$1$G$O%@%a(B.

Line 624 $\Rightarrow$ $B7W;;5!$N%Q%o!<$@$1$G$O%@%a(B.

\end{slide}

\begin{slide}{}

{\Large\parskip 0pt

\underline{\uc A $B$5$s$H(B B $B$5$s$,80$r6&M-(B --- Diffie-Hellman}

\begin{itemize}

Line 611 $\Rightarrow$ $B7W;;5!$N%Q%o!<$@$1$G$O%@%a(B.

Line 647 $\Rightarrow$ $B7W;;5!$N%Q%o!<$@$1$G$O%@%a(B.

\item $B<u$1<h$C$?(B $w_A$ $B$+$i(B $s =$ {\eec $w_A^{s_B} \bmod p$} $B$r:n$k(B.

\end{enumerate}

\end{itemize}}

\end{itemize}

\end{slide}

\begin{slide}{}

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