Cryptology ePrint Archive: Report 2014/119
Available versions in chronological order
20140221:173330 (posted 21-Feb-2014 17:33:30 UTC)
Breaking `128-bit Secure' Supersingular Binary Curves (or how to solve discrete logarithms in $\F_{2^{4 \cdot 1223}}$ and $\F_{2^{12 \cdot 367}}$)
Robert Granger and Thorsten Kleinjung and Jens Zumbr\"agel
20140612:113217 (posted 12-Jun-2014 11:32:17 UTC)
Breaking `128-bit Secure' Supersingular Binary Curves (or how to solve discrete logarithms in ${\mathbb F}_{2^{4 \cdot 1223}}$ and ${\mathbb F}_{2^{12 \cdot 367}}$)
Robert Granger and Thorsten Kleinjung and Jens Zumbr\"agel
20140612:115148 (posted 12-Jun-2014 11:51:48 UTC)
Breaking `128-bit Secure' Supersingular Binary Curves (or how to solve discrete logarithms in ${\mathbb F}_{2^{4 \cdot 1223}}$ and ${\mathbb F}_{2^{12 \cdot 367}}$)
Robert Granger and Thorsten Kleinjung and Jens Zumbr\"agel
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