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  <TITLE>7z Format</TITLE>
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<H1>7z Format</H1>

<P><B>7z</B> is a new archive format, providing a high compression ratio.</P>

<P>The main features of the <B>7z</B> format:</P>
<UL>
  <LI>Open architecture
  <LI>High compression ratio
  <LI>Strong AES-256 encryption
  <LI>Ability to use any compression, conversion or encryption method
  <LI>Supports files with sizes up to 16000000000 GB
  <LI>Unicode file names
  <LI>Solid compression
  <LI>Archive headers compression
</UL>

<P><B>7z</B> has an open architecture, so it can support any new compression methods.</P>
The following methods currently are integrated into <B>7z</B>:<P>

<TABLE cellspacing ="2" cellpadding ="4">
  <TR> <TH class="Title" width="60">Method</TH> <TH class="Title">Description</TH> </TR>
  <TR> <TD class="Item">LZMA</TD> <TD class="Item">Improved and optimized version of LZ77 algorithm</TD></TR>
  <TR> <TD class="Item">LZMA2</TD> <TD class="Item">LZMA-based compression method. It provides better multithreading support than LZMA</TD></TR>
  <TR> <TD class="Item">PPMD</TD> <TD class="Item">Dmitry Shkarin's PPMdH with small changes</TD></TR>
  <TR> <TD class="Item">BCJ</TD> <TD class="Item">Converter for 32-bit x86 executables</TD></TR>
  <TR> <TD class="Item">BCJ2</TD> <TD class="Item">Converter for 32-bit x86 executables</TD></TR>
  <TR> <TD class="Item">BZip2</TD> <TD class="Item">Standard BWT algorithm</TD></TR>
  <TR> <TD class="Item">Deflate</TD> <TD class="Item">Standard LZ77-based algorithm</TD></TR>
</TABLE>

<P><B>LZMA</B> is the default and general compression method of <B>7z</B> format. 
The main features of the <B>LZMA</B> method:</P>
<UL>
  <LI>High compression ratio
  <LI>Variable dictionary size (up to 4 GB)
  <LI>Compression speed: about 1 MB/s on 2 GHz CPU
  <LI>Decompression speed: about 10-20 MB/s on 2 GHz CPU
  <LI>Small memory requirement for decompression (depends from dictionary size)
  <LI>Small code size for decompression: about 5 KB
  <LI>Supports multi-threading and P4's hyper-threading
</UL>

<P>The <B>LZMA</B> compression algorithm is very suitable for embedded applications.
If you want to use <B>LZMA</B> code, you can ask for consultation, custom code programming,
and required developer licenses at 
<P><A href="http://www.7-zip.org/support.html" target="_blank">www.7-zip.org/support.html</A></P>
</P>

<H2>AES encryption</H2>

<P>7-Zip supports encryption with the AES-256 algorithm. 
This algorithm uses a cipher key with length of 256 bits. To create the key, 7-Zip 
uses a derivation function based on an SHA-256 hash algorithm.
A key derivation function produces a derived key from a text password defined by the user.
To increase the cost of an exhaustive search for passwords, 7-Zip uses a big number 
of iterations to produce the cipher key from the text password.</P>

<H2>Tips for selecting password length</H2>

<P>Here is an estimate of the time required for an exhaustive
password search attack, when the password is a random
sequence of lowercase Latin letters.</P>

<P>The most complex task for password search attack is SHA-256 calculation.
Special SHA-256 hardware or GPU can be used to accelerate password search attack.
Now modern GPU can provide about 10 times more performance for SHA-256 calculation 
than modern CPU. And special SHA-256 hardware can provide about 20 times more 
performance than GPU.</P>

<P>We suppose that one user with a budget of about $2000 (for GPUs) can check 
10000 passwords per second and an organization with a budget of about 
10^9 USD (one thousand million US dollars) can check 3 * 10^12 passwords per second.
We also suppose that the processor in use doubles its performance every two years;
so, each additional Latin letter of a long password adds about
9 years to an exhaustive key search attack.</P>

<P>The result is this estimate of the time to succeed in an attack:</P>

<TABLE>
  <TR align=center>
    <TH>Password Length</TH>
    <TH>Single User Attack</TH>
    <TH>Organization Attack</TH>
  </TR>
  <TR align=center> <TD> 1</TD> <TD>      1 s</TD> <TD>      1 s</TD> </TR>
  <TR align=center> <TD> 2</TD> <TD>      1 s</TD> <TD>      1 s</TD> </TR>
  <TR align=center> <TD> 3</TD> <TD>      2 s</TD> <TD>      1 s</TD> </TR>
  <TR align=center> <TD> 4</TD> <TD>    1 min</TD> <TD>      1 s</TD> </TR>
  <TR align=center> <TD> 5</TD> <TD>   30 min</TD> <TD>      1 s</TD> </TR>
  <TR align=center> <TD> 6</TD> <TD> 12 hours</TD> <TD>      1 s</TD> </TR>
  <TR align=center> <TD> 7</TD> <TD>  14 days</TD> <TD>      1 s</TD> </TR>
  <TR align=center> <TD> 8</TD> <TD>   1 year</TD> <TD>      1 s</TD> </TR>
  <TR align=center> <TD> 9</TD> <TD> 10 years</TD> <TD>      2 s</TD> </TR>
  <TR align=center> <TD>10</TD> <TD> 19 years</TD> <TD>    1 min</TD> </TR>
  <TR align=center> <TD>11</TD> <TD> 28 years</TD> <TD>   30 min</TD> </TR>
  <TR align=center> <TD>12</TD> <TD> 37 years</TD> <TD> 12 hours</TD> </TR>
  <TR align=center> <TD>13</TD> <TD> 46 years</TD> <TD>  14 days</TD> </TR>
  <TR align=center> <TD>14</TD> <TD> 55 years</TD> <TD>   1 year</TD> </TR>
  <TR align=center> <TD>15</TD> <TD> 64 years</TD> <TD> 10 years</TD> </TR>
  <TR align=center> <TD>16</TD> <TD> 73 years</TD> <TD> 19 years</TD> </TR>
  <TR align=center> <TD>17</TD> <TD> 82 years</TD> <TD> 28 years</TD> </TR>
  <TR align=center> <TD>18</TD> <TD> 91 years</TD> <TD> 37 years</TD> </TR>
  <TR align=center> <TD>19</TD> <TD>100 years</TD> <TD> 46 years</TD> </TR>
</TABLE>

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