281 lines
12 KiB
Bash
Executable file
281 lines
12 KiB
Bash
Executable file
#!/bin/bash
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# This script is intended to run inside the go generate
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# working directory must be llm/generate/
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# First we build one or more CPU based LLM libraries
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#
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# Then if we detect CUDA, we build a CUDA dynamic library, and carry the required
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# library dependencies
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#
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# Then if we detect ROCm, we build a dynamically loaded ROCm lib. The ROCM
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# libraries are quite large, and also dynamically load data files at runtime
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# which in turn are large, so we don't attempt to cary them as payload
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set -ex
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set -o pipefail
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compress_pids=""
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# See https://llvm.org/docs/AMDGPUUsage.html#processors for reference
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amdGPUs() {
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if [ -n "${AMDGPU_TARGETS}" ]; then
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echo "${AMDGPU_TARGETS}"
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return
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fi
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GPU_LIST=(
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"gfx900"
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"gfx906:xnack-"
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"gfx908:xnack-"
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"gfx90a:xnack+"
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"gfx90a:xnack-"
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"gfx940"
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"gfx941"
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"gfx942"
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"gfx1010"
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"gfx1012"
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"gfx1030"
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"gfx1100"
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"gfx1101"
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"gfx1102"
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)
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(
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IFS=$';'
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echo "'${GPU_LIST[*]}'"
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)
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}
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echo "Starting linux generate script"
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if [ -z "${CUDACXX}" ]; then
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if [ -x /usr/local/cuda/bin/nvcc ]; then
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export CUDACXX=/usr/local/cuda/bin/nvcc
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else
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# Try the default location in case it exists
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export CUDACXX=$(command -v nvcc)
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fi
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fi
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COMMON_CMAKE_DEFS="-DCMAKE_SKIP_RPATH=on -DBUILD_SHARED_LIBS=on -DCMAKE_POSITION_INDEPENDENT_CODE=on -DGGML_NATIVE=off -DGGML_AVX=on -DGGML_AVX2=off -DGGML_AVX512=off -DGGML_FMA=off -DGGML_F16C=off -DGGML_OPENMP=off"
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source $(dirname $0)/gen_common.sh
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init_vars
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git_module_setup
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apply_patches
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init_vars
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if [ -z "${OLLAMA_SKIP_STATIC_GENERATE}" -o "${OLLAMA_CPU_TARGET}" = "static" ]; then
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# Builds by default, allows skipping, forces build if OLLAMA_CPU_TARGET="static"
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# Enables optimized Dockerfile builds using a blanket skip and targeted overrides
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# Static build for linking into the Go binary
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init_vars
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CMAKE_TARGETS="--target llama --target ggml"
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CMAKE_DEFS="-DBUILD_SHARED_LIBS=off -DGGML_NATIVE=off -DGGML_AVX=off -DGGML_AVX2=off -DGGML_AVX512=off -DGGML_FMA=off -DGGML_F16C=off -DGGML_OPENMP=off ${CMAKE_DEFS}"
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BUILD_DIR="../build/linux/${ARCH}_static"
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echo "Building static library"
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build
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fi
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init_vars
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if [ -z "${OLLAMA_SKIP_CPU_GENERATE}" ]; then
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# Users building from source can tune the exact flags we pass to cmake for configuring
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# llama.cpp, and we'll build only 1 CPU variant in that case as the default.
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if [ -n "${OLLAMA_CUSTOM_CPU_DEFS}" ]; then
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init_vars
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echo "OLLAMA_CUSTOM_CPU_DEFS=\"${OLLAMA_CUSTOM_CPU_DEFS}\""
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CMAKE_DEFS="${OLLAMA_CUSTOM_CPU_DEFS} -DBUILD_SHARED_LIBS=on -DCMAKE_POSITION_INDEPENDENT_CODE=on ${CMAKE_DEFS}"
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BUILD_DIR="../build/linux/${ARCH}/cpu"
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echo "Building custom CPU"
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build
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install
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compress
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else
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# Darwin Rosetta x86 emulation does NOT support AVX, AVX2, AVX512
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# -DGGML_AVX -- 2011 Intel Sandy Bridge & AMD Bulldozer
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# -DGGML_F16C -- 2012 Intel Ivy Bridge & AMD 2011 Bulldozer (No significant improvement over just AVX)
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# -DGGML_AVX2 -- 2013 Intel Haswell & 2015 AMD Excavator / 2017 AMD Zen
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# -DGGML_FMA (FMA3) -- 2013 Intel Haswell & 2012 AMD Piledriver
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# Note: the following seem to yield slower results than AVX2 - ymmv
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# -DGGML_AVX512 -- 2017 Intel Skylake and High End DeskTop (HEDT)
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# -DGGML_AVX512_VBMI -- 2018 Intel Cannon Lake
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# -DGGML_AVX512_VNNI -- 2021 Intel Alder Lake
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COMMON_CPU_DEFS="-DBUILD_SHARED_LIBS=on -DCMAKE_POSITION_INDEPENDENT_CODE=on -DGGML_NATIVE=off -DGGML_OPENMP=off"
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if [ -z "${OLLAMA_CPU_TARGET}" -o "${OLLAMA_CPU_TARGET}" = "cpu" ]; then
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#
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# CPU first for the default library, set up as lowest common denominator for maximum compatibility (including Rosetta)
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#
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init_vars
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CMAKE_DEFS="${COMMON_CPU_DEFS} -DGGML_AVX=off -DGGML_AVX2=off -DGGML_AVX512=off -DGGML_FMA=off -DGGML_F16C=off ${CMAKE_DEFS}"
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BUILD_DIR="../build/linux/${ARCH}/cpu"
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echo "Building LCD CPU"
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build
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install
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compress
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fi
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if [ "${ARCH}" == "x86_64" ]; then
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#
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# ARM chips in M1/M2/M3-based MACs and NVidia Tegra devices do not currently support avx extensions.
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#
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if [ -z "${OLLAMA_CPU_TARGET}" -o "${OLLAMA_CPU_TARGET}" = "cpu_avx" ]; then
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#
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# ~2011 CPU Dynamic library with more capabilities turned on to optimize performance
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# Approximately 400% faster than LCD on same CPU
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#
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init_vars
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CMAKE_DEFS="${COMMON_CPU_DEFS} -DGGML_AVX=on -DGGML_AVX2=off -DGGML_AVX512=off -DGGML_FMA=off -DGGML_F16C=off ${CMAKE_DEFS}"
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BUILD_DIR="../build/linux/${ARCH}/cpu_avx"
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echo "Building AVX CPU"
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build
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install
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compress
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fi
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if [ -z "${OLLAMA_CPU_TARGET}" -o "${OLLAMA_CPU_TARGET}" = "cpu_avx2" ]; then
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#
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# ~2013 CPU Dynamic library
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# Approximately 10% faster than AVX on same CPU
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#
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init_vars
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CMAKE_DEFS="${COMMON_CPU_DEFS} -DGGML_AVX=on -DGGML_AVX2=on -DGGML_AVX512=off -DGGML_FMA=on -DGGML_F16C=on ${CMAKE_DEFS}"
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BUILD_DIR="../build/linux/${ARCH}/cpu_avx2"
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echo "Building AVX2 CPU"
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build
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install
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compress
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fi
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fi
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fi
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else
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echo "Skipping CPU generation step as requested"
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fi
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# If needed, look for the default CUDA toolkit location
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if [ -z "${CUDA_LIB_DIR}" ] && [ -d /usr/local/cuda/lib64 ]; then
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CUDA_LIB_DIR=/usr/local/cuda/lib64
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fi
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# If needed, look for CUDA on Arch Linux
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if [ -z "${CUDA_LIB_DIR}" ] && [ -d /opt/cuda/targets/x86_64-linux/lib ]; then
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CUDA_LIB_DIR=/opt/cuda/targets/x86_64-linux/lib
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fi
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# Allow override in case libcudart is in the wrong place
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if [ -z "${CUDART_LIB_DIR}" ]; then
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CUDART_LIB_DIR="${CUDA_LIB_DIR}"
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fi
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if [ -z "${OLLAMA_SKIP_CUDA_GENERATE}" -a -d "${CUDA_LIB_DIR}" ]; then
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echo "CUDA libraries detected - building dynamic CUDA library"
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init_vars
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CUDA_MAJOR=$(ls "${CUDA_LIB_DIR}"/libcudart.so.* | head -1 | cut -f3 -d. || true)
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if [ -n "${CUDA_MAJOR}" -a -z "${CUDA_VARIANT}" ]; then
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CUDA_VARIANT=_v${CUDA_MAJOR}
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fi
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if [ "${ARCH}" == "arm64" ]; then
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echo "ARM CPU detected - disabling unsupported AVX instructions"
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# ARM-based CPUs such as M1 and Tegra do not support AVX extensions.
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#
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# CUDA compute < 6.0 lacks proper FP16 support on ARM.
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# Disabling has minimal performance effect while maintaining compatibility.
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ARM64_DEFS="-DGGML_AVX=off -DGGML_AVX2=off -DGGML_AVX512=off -DGGML_CUDA_F16=off"
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fi
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# Users building from source can tune the exact flags we pass to cmake for configuring llama.cpp
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if [ -n "${OLLAMA_CUSTOM_CUDA_DEFS}" ]; then
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echo "OLLAMA_CUSTOM_CUDA_DEFS=\"${OLLAMA_CUSTOM_CUDA_DEFS}\""
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CMAKE_CUDA_DEFS="-DGGML_CUDA=on -DCMAKE_CUDA_ARCHITECTURES=${CMAKE_CUDA_ARCHITECTURES} ${OLLAMA_CUSTOM_CUDA_DEFS}"
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echo "Building custom CUDA GPU"
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else
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CMAKE_CUDA_DEFS="-DGGML_CUDA=on -DCMAKE_CUDA_ARCHITECTURES=${CMAKE_CUDA_ARCHITECTURES}"
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fi
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export CUDAFLAGS="-t8"
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CMAKE_DEFS="${COMMON_CMAKE_DEFS} ${CMAKE_DEFS} ${ARM64_DEFS} ${CMAKE_CUDA_DEFS} -DGGML_STATIC=off"
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BUILD_DIR="../build/linux/${ARCH}/cuda${CUDA_VARIANT}"
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export LLAMA_SERVER_LDFLAGS="-L${CUDA_LIB_DIR} -lcudart -lcublas -lcublasLt -lcuda"
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CUDA_DIST_DIR="${CUDA_DIST_DIR:-${DIST_BASE}/lib/ollama}"
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build
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install
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echo "Installing CUDA dependencies in ${CUDA_DIST_DIR}"
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mkdir -p "${CUDA_DIST_DIR}"
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for lib in ${CUDA_LIB_DIR}/libcudart.so* ${CUDA_LIB_DIR}/libcublas.so* ${CUDA_LIB_DIR}/libcublasLt.so* ; do
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cp -a "${lib}" "${CUDA_DIST_DIR}"
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done
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compress
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fi
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if [ -z "${ONEAPI_ROOT}" ]; then
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# Try the default location in case it exists
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ONEAPI_ROOT=/opt/intel/oneapi
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fi
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if [ -z "${OLLAMA_SKIP_ONEAPI_GENERATE}" -a -d "${ONEAPI_ROOT}" ]; then
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echo "OneAPI libraries detected - building dynamic OneAPI library"
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init_vars
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source ${ONEAPI_ROOT}/setvars.sh --force # set up environment variables for oneAPI
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CC=icx
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CMAKE_DEFS="${COMMON_CMAKE_DEFS} ${CMAKE_DEFS} -DCMAKE_C_COMPILER=icx -DCMAKE_CXX_COMPILER=icpx -DGGML_SYCL=ON -DGGML_SYCL_F16=OFF"
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BUILD_DIR="../build/linux/${ARCH}/oneapi"
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ONEAPI_DIST_DIR="${DIST_BASE}/lib/ollama"
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export LLAMA_SERVER_LDFLAGS="-fsycl -lOpenCL -lmkl_core -lmkl_sycl_blas -lmkl_intel_ilp64 -lmkl_tbb_thread -ltbb"
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DEBUG_FLAGS="" # icx compiles with -O0 if we pass -g, so we must remove it
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build
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# copy oneAPI dependencies
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mkdir -p "${ONEAPI_DIST_DIR}"
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for dep in $(ldd "${BUILD_DIR}/bin/ollama_llama_server" | grep "=>" | cut -f2 -d= | cut -f2 -d' ' | grep -e sycl -e mkl -e tbb); do
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cp -a "${dep}" "${ONEAPI_DIST_DIR}"
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done
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cp "${ONEAPI_ROOT}/compiler/latest/lib/libOpenCL.so" "${ONEAPI_DIST_DIR}"
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cp "${ONEAPI_ROOT}/compiler/latest/lib/libimf.so" "${ONEAPI_DIST_DIR}"
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cp "${ONEAPI_ROOT}/compiler/latest/lib/libintlc.so.5" "${ONEAPI_DIST_DIR}"
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cp "${ONEAPI_ROOT}/compiler/latest/lib/libirng.so" "${ONEAPI_DIST_DIR}"
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cp "${ONEAPI_ROOT}/compiler/latest/lib/libpi_level_zero.so" "${ONEAPI_DIST_DIR}"
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cp "${ONEAPI_ROOT}/compiler/latest/lib/libsvml.so" "${ONEAPI_DIST_DIR}"
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cp "${ONEAPI_ROOT}/compiler/latest/lib/libur_loader.so.0" "${ONEAPI_DIST_DIR}"
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install
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compress
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fi
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if [ -z "${ROCM_PATH}" ]; then
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# Try the default location in case it exists
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ROCM_PATH=/opt/rocm
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fi
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if [ -z "${CLBlast_DIR}" ]; then
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# Try the default location in case it exists
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if [ -d /usr/lib/cmake/CLBlast ]; then
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export CLBlast_DIR=/usr/lib/cmake/CLBlast
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fi
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fi
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if [ -z "${OLLAMA_SKIP_ROCM_GENERATE}" -a -d "${ROCM_PATH}" ]; then
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echo "ROCm libraries detected - building dynamic ROCm library"
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if [ -f ${ROCM_PATH}/lib/librocblas.so.*.*.????? ]; then
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ROCM_VARIANT=_v$(ls ${ROCM_PATH}/lib/librocblas.so.*.*.????? | cut -f5 -d. || true)
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fi
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init_vars
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CMAKE_DEFS="${COMMON_CMAKE_DEFS} ${CMAKE_DEFS} -DGGML_HIPBLAS=on -DGGML_CUDA_NO_PEER_COPY=on -DCMAKE_C_COMPILER=$ROCM_PATH/llvm/bin/clang -DCMAKE_CXX_COMPILER=$ROCM_PATH/llvm/bin/clang++ -DAMDGPU_TARGETS=$(amdGPUs) -DGPU_TARGETS=$(amdGPUs)"
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# Users building from source can tune the exact flags we pass to cmake for configuring llama.cpp
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if [ -n "${OLLAMA_CUSTOM_ROCM_DEFS}" ]; then
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echo "OLLAMA_CUSTOM_ROCM_DEFS=\"${OLLAMA_CUSTOM_ROCM_DEFS}\""
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CMAKE_DEFS="${CMAKE_DEFS} ${OLLAMA_CUSTOM_ROCM_DEFS}"
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echo "Building custom ROCM GPU"
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fi
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BUILD_DIR="../build/linux/${ARCH}/rocm${ROCM_VARIANT}"
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# ROCm dependencies are too large to fit into a unified bundle
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ROCM_DIST_DIR="${DIST_BASE}/../linux-${GOARCH}-rocm/lib/ollama"
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# TODO figure out how to disable runpath (rpath)
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# export CMAKE_HIP_FLAGS="-fno-rtlib-add-rpath" # doesn't work
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export LLAMA_SERVER_LDFLAGS="-L${ROCM_PATH}/lib -L/opt/amdgpu/lib/x86_64-linux-gnu/ -lhipblas -lrocblas -lamdhip64 -lrocsolver -lamd_comgr -lhsa-runtime64 -lrocsparse -ldrm -ldrm_amdgpu"
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build
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# copy the ROCM dependencies
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mkdir -p "${ROCM_DIST_DIR}"
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for dep in $(ldd "${BUILD_DIR}/bin/ollama_llama_server" | grep "=>" | cut -f2 -d= | cut -f2 -d' ' | grep -v "${ARCH}/rocm${ROCM_VARIANT}" | grep -e rocm -e amdgpu -e libtinfo ); do
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cp -a "${dep}"* "${ROCM_DIST_DIR}"
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done
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install
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compress
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fi
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cleanup
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wait_for_compress
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echo "go generate completed. LLM runners: $(cd ${BUILD_DIR}/..; echo *)"
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