1 #ifndef HALIDE_TARGET_H
2 #define HALIDE_TARGET_H
135 Target(
OS o,
Arch a,
int b,
const std::vector<Feature> &initial_features = std::vector<Feature>())
137 for (
const auto &f : initial_features) {
166 void set_features(
const std::vector<Feature> &features_to_set,
bool value =
true);
222 return os == other.
os &&
225 features == other.features;
229 return !(*
this == other);
262 template<
typename data_t>
309 std::bitset<FeatureEnd> features;
This file declares the routines used by Halide internally in its runtime.
halide_target_feature_t
Optional features a compilation Target can have.
@ halide_target_feature_large_buffers
Enable 64-bit buffer indexing to support buffers > 2GB. Ignored if bits != 64.
@ halide_target_feature_fma
Enable x86 FMA instruction.
@ halide_target_feature_wasm_bulk_memory
Enable +bulk-memory instructions for WebAssembly codegen.
@ halide_target_feature_tsan
Enable hooks for TSAN support.
@ halide_target_feature_msan
Enable hooks for MSAN support.
@ halide_target_feature_wasm_threads
Enable use of threads in WebAssembly codegen. Requires the use of a wasm runtime that provides pthrea...
@ halide_target_feature_trace_loads
Trace all loads done by the pipeline. Equivalent to calling Func::trace_loads on every non-inlined Fu...
@ halide_target_feature_enable_llvm_loop_opt
Enable loop vectorization + unrolling in LLVM. Overrides halide_target_feature_disable_llvm_loop_opt....
@ halide_target_feature_no_asserts
Disable all runtime checks, for slightly tighter code.
@ halide_target_feature_cl_doubles
Enable double support on OpenCL targets.
@ halide_target_feature_rvv
Enable RISCV "V" Vector Extension.
@ halide_target_feature_openglcompute
Enable OpenGL Compute runtime.
@ halide_target_feature_avx2
Use AVX 2 instructions. Only relevant on x86.
@ halide_target_feature_trace_realizations
Trace all realizations done by the pipeline. Equivalent to calling Func::trace_realizations on every ...
@ halide_target_feature_c_plus_plus_mangling
Generate C++ mangled names for result function, et al.
@ halide_target_feature_no_runtime
Do not include a copy of the Halide runtime in any generated object file or assembly.
@ halide_target_feature_hvx_v65
Enable Hexagon v65 architecture.
@ halide_target_feature_debug
Turn on debug info and output for runtime code.
@ halide_target_feature_embed_bitcode
Emulate clang -fembed-bitcode flag.
@ halide_target_feature_wasm_simd128
Enable +simd128 instructions for WebAssembly codegen.
@ halide_target_feature_end
A sentinel. Every target is considered to have this feature, and setting this feature does nothing.
@ halide_llvm_large_code_model
Use the LLVM large code model to compile.
@ halide_target_feature_soft_float_abi
Enable soft float ABI. This only enables the soft float ABI calling convention, which does not necess...
@ halide_target_feature_sve2
Enable ARM Scalable Vector Extensions v2.
@ halide_target_feature_disable_llvm_loop_opt
Disable loop vectorization + unrolling in LLVM. (Ignored for non-LLVM targets.)
@ halide_target_feature_d3d12compute
Enable Direct3D 12 Compute runtime.
@ halide_target_feature_matlab
Generate a mexFunction compatible with Matlab mex libraries. See tools/mex_halide....
@ halide_target_feature_avx512_skylake
Enable the AVX512 features supported by Skylake Xeon server processors. This adds AVX512-VL,...
@ halide_target_feature_avx512_cannonlake
Enable the AVX512 features expected to be supported by future Cannonlake processors....
@ halide_target_feature_metal
Enable the (Apple) Metal runtime.
@ halide_target_feature_hvx_128
Enable HVX 128 byte mode.
@ halide_target_feature_cuda_capability70
Enable CUDA compute capability 7.0 (Volta)
@ halide_target_feature_fma4
Enable x86 (AMD) FMA4 instruction set.
@ halide_target_feature_wasm_sat_float_to_int
Enable saturating (nontrapping) float-to-int instructions for WebAssembly codegen.
@ halide_target_feature_cuda_capability30
Enable CUDA compute capability 3.0 (Kepler)
@ halide_target_feature_no_neon
Avoid using NEON instructions. Only relevant for 32-bit ARM.
@ halide_target_feature_cuda_capability61
Enable CUDA compute capability 6.1 (Pascal)
@ halide_target_feature_armv7s
Generate code for ARMv7s. Only relevant for 32-bit ARM.
@ halide_target_feature_trace_pipeline
Trace the pipeline.
@ halide_target_feature_cl_atomic64
Enable 64-bit atomics operations on OpenCL targets.
@ halide_target_feature_egl
Force use of EGL support.
@ halide_target_feature_profile
Launch a sampling profiler alongside the Halide pipeline that monitors and reports the runtime used b...
@ halide_target_feature_strict_float
Turn off all non-IEEE floating-point optimization. Currently applies only to LLVM targets.
@ halide_target_feature_cuda_capability35
Enable CUDA compute capability 3.5 (Kepler)
@ halide_target_feature_asan
Enable hooks for ASAN support.
@ halide_target_feature_cl_half
Enable half support on OpenCL targets.
@ halide_target_feature_arm_dot_prod
Enable ARMv8.2-a dotprod extension (i.e. udot and sdot instructions)
@ halide_target_feature_avx512_sapphirerapids
Enable the AVX512 features supported by Sapphire Rapids processors. This include all of the Cannonlak...
@ halide_target_feature_sse41
Use SSE 4.1 and earlier instructions. Only relevant on x86.
@ halide_target_feature_power_arch_2_07
Use POWER ISA 2.07 new instructions. Only relevant on POWERPC.
@ halide_target_feature_opencl
Enable the OpenCL runtime.
@ halide_target_feature_trace_stores
Trace all stores done by the pipeline. Equivalent to calling Func::trace_stores on every non-inlined ...
@ halide_target_feature_hexagon_dma
Enable Hexagon DMA buffers.
@ halide_target_feature_avx512
Enable the base AVX512 subset supported by all AVX512 architectures. The specific feature sets are AV...
@ halide_target_feature_avx512_knl
Enable the AVX512 features supported by Knight's Landing chips, such as the Xeon Phi x200....
@ halide_target_feature_cuda_capability50
Enable CUDA compute capability 5.0 (Maxwell)
@ halide_target_feature_hvx_v62
Enable Hexagon v62 architecture.
@ halide_target_feature_hvx_use_shared_object
Deprecated.
@ halide_target_feature_cuda
Enable the CUDA runtime. Defaults to compute capability 2.0 (Fermi)
@ halide_target_feature_armv81a
Enable ARMv8.1-a instructions.
@ halide_target_feature_cuda_capability80
Enable CUDA compute capability 8.0 (Ampere)
@ halide_target_feature_f16c
Enable x86 16-bit float support.
@ halide_target_feature_cuda_capability32
Enable CUDA compute capability 3.2 (Tegra K1)
@ halide_target_feature_jit
Generate code that will run immediately inside the calling process.
@ halide_target_feature_wasm_signext
Enable +sign-ext instructions for WebAssembly codegen.
@ halide_target_feature_avx
Use AVX 1 instructions. Only relevant on x86.
@ halide_target_feature_cuda_capability75
Enable CUDA compute capability 7.5 (Turing)
@ halide_target_feature_check_unsafe_promises
Insert assertions for promises.
@ halide_target_feature_vsx
Use VSX instructions. Only relevant on POWERPC.
@ halide_target_feature_user_context
Generated code takes a user_context pointer as first argument.
@ halide_target_feature_no_bounds_query
Disable the bounds querying functionality.
@ halide_target_feature_fuzz_float_stores
On every floating point store, set the last bit of the mantissa to zero. Pipelines for which the outp...
@ halide_target_feature_sve
Enable ARM Scalable Vector Extensions.
@ halide_target_feature_hvx_v66
Enable Hexagon v66 architecture.
This file defines the class FunctionDAG, which is our representation of a Halide pipeline,...
Target get_host_target()
Return the target corresponding to the host machine.
@ Internal
Not visible externally, similar to 'static' linkage in C.
Target::Feature target_feature_for_device_api(DeviceAPI api)
Get the Target feature corresponding to a DeviceAPI.
Target get_jit_target_from_environment()
Return the target that Halide will use for jit-compilation.
DeviceAPI
An enum describing a type of device API.
Target get_target_from_environment()
Return the target that Halide will use.
unsigned __INT64_TYPE__ uint64_t
signed __INT64_TYPE__ int64_t
A struct representing a target machine and os to generate code for.
bool get_runtime_compatible_target(const Target &other, Target &result)
Create a "greatest common denominator" runtime target that is compatible with both this target and ot...
bool operator==(const Target &other) const
bool supports_type(const Type &t, DeviceAPI device) const
Does this target allow using a certain type on a certain device.
bool supports_device_api(DeviceAPI api) const
Returns whether a particular device API can be used with this Target.
bool has_gpu_feature() const
Is a fully feature GPU compute runtime enabled? I.e.
static std::string feature_to_name(Target::Feature feature)
Return the name corresponding to a given Feature, in the form used to construct Target strings (e....
static Target::Feature feature_from_name(const std::string &name)
Return the feature corresponding to a given name, in the form used to construct Target strings (e....
Target(OS o, Arch a, int b, const std::vector< Feature > &initial_features=std::vector< Feature >())
void set_features(const std::vector< Feature > &features_to_set, bool value=true)
bool has_large_buffers() const
Return true iff 64 bits and has_feature(LargeBuffers).
enum Halide::Target::Arch arch
int64_t maximum_buffer_size() const
Return the maximum buffer size in bytes supported on this Target.
bool has_feature(Feature f) const
int natural_vector_size() const
Given a data type, return an estimate of the "natural" vector size for that data type when compiling ...
Target(const std::string &s)
Given a string of the form used in HL_TARGET (e.g.
int bits
The bit-width of the target machine.
enum Halide::Target::OS os
std::string to_string() const
Convert the Target into a string form that can be reconstituted by merge_string(),...
static bool validate_target_string(const std::string &s)
Check if a target string is valid.
Target without_feature(Feature f) const
Return a copy of the target with the given feature cleared.
Feature
Optional features a target can have.
bool operator!=(const Target &other) const
bool supported() const
Was libHalide compiled with support for this target?
DeviceAPI get_required_device_api() const
If this Target (including all Features) requires a specific DeviceAPI, return it.
bool has_feature(halide_target_feature_t f) const
bool has_unknowns() const
Return true if any of the arch/bits/os fields are "unknown"/0; return false otherwise.
bool features_any_of(const std::vector< Feature > &test_features) const
void set_feature(Feature f, bool value=true)
const std::bitset< FeatureEnd > & get_features_bitset() const
Return a bitset of the Featuress set in this Target (set = 1).
bool supports_type(const Type &t) const
Does this target allow using a certain type.
int get_cuda_capability_lower_bound() const
Get the minimum cuda capability found as an integer.
Target with_feature(Feature f) const
Return a copy of the target with the given feature set.
int natural_vector_size(const Halide::Type &t) const
Given a data type, return an estimate of the "natural" vector size for that data type when compiling ...
bool features_all_of(const std::vector< Feature > &test_features) const
Arch
The architecture used by the target.
OS
The operating system used by the target.
Types in the halide type system.