A single-header C library for simplifying the use of CUDA Runtime Compilation (NVRTC).
Integrating NVRTC into existing and/or templated CUDA code can be tricky. Jitify aims to simplify this process by hiding the complexities behind a simple, high-level interface.
const char* program_source = "my_program\n"
"template<int N, typename T>\n"
"__global__\n"
"void my_kernel(T* data) {\n"
" T data0 = data[0];\n"
" for( int i=0; i<N-1; i ) {\n"
" data[0] *= data0;\n"
" }\n"
"}\n";
static jitify::JitCache kernel_cache;
jitify::Program program = kernel_cache.program(program_source);
// ...set up data etc.
dim3 grid(1);
dim3 block(1);
using jitify::reflection::type_of;
program.kernel("my_kernel")
.instantiate(3, type_of(*data))
.configure(grid, block)
.launch(data);
Jitify provides/takes care of the following things:
- All NVRTC and CUDA Driver API calls
- Simple kernel instantiation and launch syntax
- Caching compiled kernels
- Loading source code from strings, files, or embedded in an executable
- Ignoring host code in runtime-compiled sources
- Skipping unneeded headers
- Support for JIT-safe standard library headers (e.g., float.h, stdint.h etc.)
- Dealing with kernel name mangling
- Reflecting kernel template parameters into strings
- Compiling specifically for the current device's compute capability
- Linking to pre-compiled PTX/CUBIN/FATBIN/object/library files
- Support for CUDA versions 7.0, 7.5, 8.0, 9.x, 10.x, on both Linux and Windows
- Convenient parallel_for function and lambda support
- *New* jitify::experimental API provides serialization capabilities to enable user-managed hashing and caching
Things you can do with Jitify and NVRTC:
- Rapidly port existing code to use CUDA Runtime Compilation
- Dramatically reduce code volume and offline-compilation times
- Increase kernel performance by baking in runtime constants and autotuning
Jitify is just a single header file:
#include <jitify.hpp>
Compile with: -pthread
(not needed if JITIFY_THREAD_SAFE is defined to 0)
Link with: -lcuda -lcudart -lnvrtc
A small utility called stringify is included for converting text files into C string literals, which provides a convenient way to integrate JIT-compiled sources into a build.
Tests can be run with the following command:
$ make test
This will automatically download and build the GoogleTest library, which requires CMake to be available on the system.
See jitify_example.cpp for some examples of how to use the library. The Makefile also demonstrates how to use the provided stringify utility.
GTC 2017 Talk by Ben Barsdell and Kate Clark
Doxygen documentation can be generated by running:
$ make doc
The HTML and LaTeX results are placed into the doc/ subdirectory.
BSD-3-Clause
Ben Barsdell (NVIDIA, bbarsdell at nvidia dot com)
Kate Clark (NVIDIA, mclark at nvidia dot com)