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author | Rob Austein <sra@hactrn.net> | 2020-09-13 23:04:30 +0000 |
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committer | Rob Austein <sra@hactrn.net> | 2020-09-13 23:04:30 +0000 |
commit | b092ffbcbe2c9398494f7dc9db6f0796971633e0 (patch) | |
tree | 6fabf690f1ebf485a9fea9af5298e44ad2a59a3e /raw-wiki-dump/GitRepositories%2Fcore%2Fcipher%2Faes | |
parent | 9d927e49d9c10fc16c6dfa4a2a96cdb6216e4e2b (diff) |
Import Cryptech wiki dump
Diffstat (limited to 'raw-wiki-dump/GitRepositories%2Fcore%2Fcipher%2Faes')
-rw-r--r-- | raw-wiki-dump/GitRepositories%2Fcore%2Fcipher%2Faes | 90 |
1 files changed, 90 insertions, 0 deletions
diff --git a/raw-wiki-dump/GitRepositories%2Fcore%2Fcipher%2Faes b/raw-wiki-dump/GitRepositories%2Fcore%2Fcipher%2Faes new file mode 100644 index 0000000..b46c33c --- /dev/null +++ b/raw-wiki-dump/GitRepositories%2Fcore%2Fcipher%2Faes @@ -0,0 +1,90 @@ +{{{ +#!htmlcomment + +This page is maintained automatically by a script. Don't modify this page by hand, +your changes will just be overwritten the next time the script runs. Talk to your +Friendly Neighborhood Repository Maintainer if you need to change something here. + +}}} + +{{{ +#!html +<h1>aes_speed</h1> + +<p>Speed optimized Verilog implementation of the symmetric block cipher AES +(Advanced Encryption Standard) as specified in the NIST document <a href="http://csrc.nist.gov/publications/fips/fips197/fips-197.pdf">FIPS +197</a>.</p> + +<p>This core is modified version of the Cryptech AES core. Note that the +name of the core modules are identical to that core. The purpose of this +is to allow a drop-in replacement in Cryptech designs.</p> + +<h2>Status</h2> + +<p>Second round of optimizations done. The core has been implemented in +FPGA and tested in real HW.</p> + +<h2>Introduction</h2> + +<p>This implementation supports 128 and 256 bit keys. The +implementation is iterative and process one 128 block at a time.</p> + +<p>The encipher and decipher block processing datapaths are separated and +basically self contained given access to a set of round keys and a +block. This makes it possible to hard wire either encipher or decipher +and allow the build tools to optimize away the other functionality which +will reduce the size to about 50%. For cipher modes such as CTR, GCM +decryption in the AES core will never be used and thus the decipher +block processing can be removed.</p> + +<p>The core has been equipped with 16 S-boxes for encipher and 16 Inverse +S-boxes for decipher. This allows the core to perform the SubBytes and +InverseSubBytes operations in the AES round functions in one cycle.</p> + +<p>The key expansion does not share S-boxes with the encipher datapath, so +the total number of S-boxes is 40.</p> + +<h2>Performance comparison</h2> + +<p>Number of cycles for the old Cryptech AES core:</p> + +<ul> +<li>AES-128 Encipher one block: 57</li> +<li>AES-256 Decipher one block: 77</li> +</ul> + +<p>Number of cycles for the Cryptech AES speed core:</p> + +<ul> +<li>AES-128 Encipher one block: 16</li> +<li>AES-255 Decipher one block: 20</li> +</ul> + +<p>Note that these latency numbers are after key expansion. The given key +must be expanded byt asserting the init control bit and wait for ready +to be asserted. Key expansion takes about 10 to 14 cycles.</p> + +<h2>Implementation comparison</h2> + +<p>Implementation results for Xilinx Artix7-t200.</p> + +<p>Old Cryptech AES core:</p> + +<ul> +<li>2094 slices</li> +<li>2854 regs</li> +<li>114 MHz (8.76ns)</li> +</ul> + +<p>Cryptec AES speed core:</p> + +<ul> +<li>2112 slices</li> +<li>2984 regs</li> +<li>116 MHz. (8.62ns)</li> +</ul> +}}} + +[[RepositoryIndex(format=table,glob=core/cipher/aes)]] + +|| Clone `https://git.cryptech.is/core/cipher/aes.git` || |