xmrig

This container is a CUDA enabled build of xmrig/xmrig. It tracks the head of the master branch at build time. I used the guidance provided in the XMRig Build documentation for Ubuntu to put this image together.

To minimize the complexity of pulling in the required dependencies and minimizing the size of the image, I use the nvidia/cuda:11-2.0-devel image to build the xmrig binary. In the second stage, I copy the build artifacts to a new image dependent on nvidia/cuda:11.2.0-runtime.

The final image size is ~2.18GB compared to ~4.59GB when using the nvidia development image.

The entrypoint for the final image is /opt/xmrig/xmrig.

This provides the ability to pass arguments at container execution time. For example:

$ docker run --rm --gpus all -it kriation/xmrig:latest \
-t 4 --randomx-1gb-pages --bench=1M --cuda
 * ABOUT        XMRig/6.8.0 gcc/9.3.0
 * LIBS         libuv/1.34.2 OpenSSL/1.1.1f hwloc/2.1.0
 * HUGE PAGES   supported
 * 1GB PAGES    supported
 * CPU          Intel(R) Core(TM) i5-4670K CPU @ 3.40GHz (1) 64-bit AES
                L2:1.0 MB L3:6.0 MB 4C/4T NUMA:1
 * MEMORY       7.4/31.3 GB (24%)
 * DONATE       0%
 * ASSEMBLY     auto:intel
 * POOL #1      benchmark algo auto
 * COMMANDS     hashrate, pause, resume, results, connection
 * OPENCL       disabled
 * CUDA         11.2/11.2/6.5.0
 * CUDA GPU     #0 01:00.0 GeForce GTX 1660 SUPER 1830/7001 MHz smx:22 arch:75 mem:1572/5941 MB
		 bench    start benchmark hashes 1M algo rx/0
		 cpu      use argon2 implementation AVX2
		 randomx  init dataset algo rx/0 (4 threads) seed 0000000000000000...
		 randomx  allocated 3072 MB (2080+256) huge pages 100% 3/3 +JIT (142 ms)
		 randomx  dataset ready (6438 ms)
		 cpu      use profile  *  (4 threads) scratchpad 2048 KB
		 nvidia   use profile  rx  (1 thread) scratchpad 2048 KB
|  # | GPU |  BUS ID | INTENSITY | THREADS | BLOCKS | BF |  BS | MEMORY | NAME
|  0 |   0 | 01:00.0 |       736 |      32 |     23 |  0 |   0 |   1472 | GeForce GTX 1660 SUPER
		 cpu      READY threads 4/4 (4) huge pages 100% 4/4 memory 8192 KB (3 ms)
		 nvidia   READY threads 1/1 (602 ms)
		 nvidia   #0 01:00.0   0W  0C
		 miner    speed 10s/60s/15m 2275.4 n/a n/a H/s max 2277.7 H/s
		 bench    12.55% 125485/1000000 (60.019s)
|    CPU # | AFFINITY | 10s H/s | 60s H/s | 15m H/s |
|        0 |       -1 |   407.6 |   407.7 |     n/a |
|        1 |       -1 |   412.6 |   412.6 |     n/a |
|        2 |       -1 |   636.7 |   636.5 |     n/a |
|        3 |       -1 |   638.8 |   638.5 |     n/a |
|        - |        - |  2095.8 |  2095.3 |     n/a |
|   CUDA # | AFFINITY | 10s  H/s | 60s  H/s | 15m  H/s |
|        0 |       -1 |    181.3 |    180.3 |      n/a | #0 01:00.0 GeForce GTX 1660 SUPER
|        - |        - |    180.4 |    180.3 |      n/a |
		 miner    speed 10s/60s/15m 2276.2 2275.6 n/a H/s max 2277.7 H/s
		 bench    17.89% 178922/1000000 (85.759s)
		 signal   Ctrl+C received, exiting
		 cpu      stopped (1 ms)
		 nvidia   stopped (376 ms)

The prerequisite to using this image is that the NVIDIA container toolkit is configured properly on the container host. The documentation from NVIDIA on setting the toolkit up is straightforward.

In addition, I highly recommend that Huge Pages, 1GB Pages, and Hardware prefetching be configured per the XMRig documentation. The difference in hashrate on my test rig was more than 30%.

hovo1990 / docker-xmrig

xmrig

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