Releases

Release builds made by us are available here: https://github.com/Maroc-OS/nheqminer/releases

#Examples

Build instructions:

Dependencies:

• Boost 1.62+ (tested with version 1.63.0)

Available solvers:

• USE_CPU_TROMP
• USE_CPU_XENONCAT
• USE_CUDA_TROMP
• USE_CUDA_DJEZO

All *nix Operating systems. Linux/macOS

No need for c++ we are using default clang on macOS, works also for linux. Working solvers CPU_TROMP, CPU_XENONCAT, CUDA_TROMP, CUDA_DJEZO

Enabled solvers:

• USE_CPU_TROMP
• USE_CPU_XENONCAT

General instructions:

• Install CUDA SDK v8 (make sure you have cuda libraries in LD_LIBRARY_PATH and cuda toolkit bins in PATH)

  • example on Ubuntu:
  • LD_LIBRARY_PATH="$LD_LIBRARY_PATH:/usr/local/cuda-8.0/lib64:/usr/local/cuda-8.0/lib64/stubs"
  • PATH="$PATH:/usr/local/cuda-8.0/"
  • PATH="$PATH:/usr/local/cuda-8.0/bin"

• Use Boost 1.62+ (if it is not available from the repos you will have to download and build it yourself)

• CMake v3.5 (if it is not available from the repos you will have to download and build it yourself)

• Currently support only static building (CPU_XENONCAT, CPU_TROMP are enabled by default, check CMakeLists.txt in nheqminer root folder)

• If not on Ubuntu make sure you have fasm installed and accessible in PATH

• After that open the terminal and run the following commands:

  • git clone https://github.com/Maroc-OS/nheqminer.git
  • Generating asm object file is automated:
    • If the bundeled fasm binary is not compatible:
      • delete/replace (inside nheqminer/cpu_xenoncat/asm_linux/ directory) with fasm binary compatible with your distro
  • mkdir build && cd build
  • cmake ../nheqminer
  • make -j $(nproc)

Windows:

Download and install:

• CUDA SDK (if not needed remove USE_CUDA_TROMP and USE_CUDA_DJEZO from nheqminer Preprocessor definitions under Properties > C/C++ > Preprocessor)
• Visual Studio 2013 Community: https://www.visualstudio.com/en-us/news/releasenotes/vs2013-community-vs
• Visual Studio Update 5 installed
• 64 bit version only

Open nheqminer.sln under nheqminer/nheqminer.sln and build. You will have to build ReleaseSSE2 cpu_tromp project first, then Release7.5 cuda_tromp project, then select Release and build all.

Enabled solvers:

• USE_CPU_TROMP
• USE_CPU_XENONCAT
• USE_CUDA_TROMP
• USE_CUDA_DJEZO

If you don't wan't to build with all solvers you can go to nheqminer Properties > C/C++ > Preprocessor > Preprocessor Definitions and remove the solver you don't need.

Run instructions:

Parameters: -h Print this help and quit -l [location] Stratum server:port -u [username] Username (bitcoinaddress) -a [port] Local API port (default: 0 = do not bind) -d [level] Debug print level (0 = print all, 5 = fatal only, default: 2) -b [hashes] Run in benchmark mode (default: 200 iterations)

CPU settings -t [num_thrds] Number of CPU threads -e [ext] Force CPU ext (0 = SSE2, 1 = AVX, 2 = AVX2)

NVIDIA CUDA settings -ci CUDA info -cd [devices] Enable CUDA mining on spec. devices -cb [blocks] Number of blocks -ct [tpb] Number of threads per block Example: -cd 0 2 -cb 12 16 -ct 64 128

If run without parameters, miner will start mining with 75% of available logical CPU cores. Use parameter -h to learn about available parameters:

Example to test this enhanced version:

    nheqminer -t 6 (run it for 10 minutes as a donation if you like it)

Example to run benchmark on your CPU:

    nheqminer -b

Example to mine on your CPU with your own BTC address and worker1 on any stratum server:

    nheqminer -l SERVER:PORT -u YOUR_BTC_ADDRESS_HERE.worker1

Note: if you have a 4-core CPU with hyper threading enabled (total 8 threads) it is best to run with only 6 threads (experimental benchmarks shows that best results are achieved with 75% threads utilized)

Example to mine on your CPU as well on your CUDA GPUs with your own BTC address and worker1 on EU server, using 6 CPU threads and 2 CUDA GPUs:

    nheqminer -l SERVER:PORT -u YOUR_BTC_ADDRESS_HERE.worker1 -t 6 -cd 0 1