There are a few architectures, such as the Intel Atom C3000 series 16-core parts, that have 1MB cache per core. Likewise, Xeon D has 1.5MB L3 cache per core so not a full 2MB which is what is required for the standard miner. For those architectures, AEON with cryptonight-lite and xmrig can be set to use less cache.
Here is the testing container:
It is based on the private pool container but you can use another pool. xmrig dev fee is set to default at 0% but you can adjust upwards like in the other image.
Generating some data to see how well it works. From initial testing, it looks like this will be added to the main image.
First will be the xmrig av2 number (legacy) then av1 (this image)
Atom C3000
Intel Atom C3955, 1443, 1677, +15%
Intel Atom C3958, 1132, 1306, +15%
Xeon D-1500
Intel Xeon D-1587, 1120, 1700 +51% (note using 23 threads for this. 24 threads = 1600, 20 threads = 1552)
Intel Xeon D-1540, 630, 938 +48% (note using 12 threads for this. 8 threads = 707, 11 threads = 898)
Xeon D-2100
Intel Xeon D-2123IT 798H/s (note using 4 threads)
Intel Xeon D-2183IT 3301H/s (note using 16 threads)
Skylake-SP
2x 8180, 10400, 13100, +25% (note using 28 threads per CPU, likely more available)
4x 8180, 21000, 26000, +23% (using 28 threads per CPU)
2x 6152, 6895, 8803, +27% (using 22 threads per CPU)
2x 6138, 6331, 7408, +17% (using 20 threads per CPU)
2x 8158, 6365 (using 12 threads per CPU)
2x 6136, 6363 (using 12 threads per CPU)
1x Intel QLF1, 4544 (using 28 threads per CPU)
1x 6132, 2545, 3387, +33% (using 14 threads per CPU)
1x 8158, 3186H/s (using 12 threads per CPU)
1x 6136, 3185H/s (using 12 threads per CPU)
2x 4110, 2570, 2829, +10% (using 8 threads per CPU)
1x 5119T, 2364 (using 14 threads per CPU)
1x 6134, 2178 (using 8 threads per CPU)
1x 4116, 2123 (using 12 threads per CPU)
AMD EPYC
1x AMD EPYC 7551, 6583, 6892, +4% (using 16 threads per CPU)
1x AMD EPYC 7601, 6951, 7296, 5% (using 16 threads per CPU)
AMD Ryzen
AMD Ryzen 5 1400, 910, 950, +4%
Intel Xeon E5
Use av=2
Intel Xeon E3
Use av=2
Here is the testing container:
Code:
servethehome/aeon_xmrig:av1
Generating some data to see how well it works. From initial testing, it looks like this will be added to the main image.
First will be the xmrig av2 number (legacy) then av1 (this image)
Atom C3000
Intel Atom C3955, 1443, 1677, +15%
Intel Atom C3958, 1132, 1306, +15%
Xeon D-1500
Intel Xeon D-1587, 1120, 1700 +51% (note using 23 threads for this. 24 threads = 1600, 20 threads = 1552)
Intel Xeon D-1540, 630, 938 +48% (note using 12 threads for this. 8 threads = 707, 11 threads = 898)
Xeon D-2100
Intel Xeon D-2123IT 798H/s (note using 4 threads)
Intel Xeon D-2183IT 3301H/s (note using 16 threads)
Skylake-SP
2x 8180, 10400, 13100, +25% (note using 28 threads per CPU, likely more available)
4x 8180, 21000, 26000, +23% (using 28 threads per CPU)
2x 6152, 6895, 8803, +27% (using 22 threads per CPU)
2x 6138, 6331, 7408, +17% (using 20 threads per CPU)
2x 8158, 6365 (using 12 threads per CPU)
2x 6136, 6363 (using 12 threads per CPU)
1x Intel QLF1, 4544 (using 28 threads per CPU)
1x 6132, 2545, 3387, +33% (using 14 threads per CPU)
1x 8158, 3186H/s (using 12 threads per CPU)
1x 6136, 3185H/s (using 12 threads per CPU)
2x 4110, 2570, 2829, +10% (using 8 threads per CPU)
1x 5119T, 2364 (using 14 threads per CPU)
1x 6134, 2178 (using 8 threads per CPU)
1x 4116, 2123 (using 12 threads per CPU)
AMD EPYC
1x AMD EPYC 7551, 6583, 6892, +4% (using 16 threads per CPU)
1x AMD EPYC 7601, 6951, 7296, 5% (using 16 threads per CPU)
AMD Ryzen
AMD Ryzen 5 1400, 910, 950, +4%
Intel Xeon E5
Use av=2
Intel Xeon E3
Use av=2
Last edited: