test/CodeGen/builtins-nvptx-mma.py - clang - Git at Google

 # This script generates all variants of wmma builtins, verifies that clang calls
 # correct LLVM instrinsics, and checks that availability of specific builtins is
 # constrained by the correct PTX version and the target GPU variant.

 # Dummy test run to avoid lit warnings.
 # RUN: echo "This is not a real test. It's a generator for builtins-nvpts-mma.cu" >/dev/null

 from __future__ import print_function

 import argparse
 from collections import defaultdict
 from itertools import product
 from string import Template

 class MMAFrag:
   def __init__(self, geom, frag, ptx_elt_type):
     self.geom = geom
     self.frag = frag
     self.ptx_type = ptx_elt_type;

   def __repr__(self):
     return "%s:%s:%s" % (self.geom, self.frag, self.ptx_type)

 class MMAOp:
   def __init__(self, a, b, c, d):
     self.a = a
     self.b = b
     self.c = c
     self.d = d

   def __repr__(self):
     return ("{A:%s, B:%s, C:%s, D:%s}" % (self.a, self.b, self.c, self.d ))

 def make_mma_ops(geoms, types_a, types_b, types_c, types_d):
   ops = []
   for geom, type_a, type_c in product( geoms,  types_a, types_c):
     for type_b, type_d in product(types_b if types_b else [type_a],
                                   types_d if types_d else [type_c]):
       ops.append(MMAOp(MMAFrag(geom, "a", type_a),
                        MMAFrag(geom, "b", type_b),
                        MMAFrag(geom, "c", type_c),
                        MMAFrag(geom, "d", type_d)))
   return ops

 def make_ldst_ops(geoms, frags, types):
   return [MMAFrag(geom, frag, ptx_type) for (geom, frag, ptx_type)
           in product(geoms, frags, types)]

 def get_mma_ops():
   return (make_mma_ops(["m16n16k16", "m32n8k16", "m8n32k16"],
                        ["f16"], [], ["f16", "f32"], ["f16", "f32"]) +
           make_mma_ops(["m16n16k16", "m32n8k16", "m8n32k16"],
                        ["s8", "u8"], [], ["s32"], []) +
           make_mma_ops(["m8n8k32"],
                        ["s4", "u4"], [], ["s32"], []) +
           make_mma_ops(["m8n8k128"],
                        ["b1"], [], ["s32"], []))
 def get_ldst_ops():
   return (make_ldst_ops(["m16n16k16", "m32n8k16", "m8n32k16"],
                         ["a", "b"], ["f16", "u8", "s8"]) +
           make_ldst_ops(["m16n16k16", "m32n8k16", "m8n32k16"],
                         ["c", "d"], ["f16", "f32", "s32"]) +
           make_ldst_ops(["m8n8k32"], ["a", "b"], ["s4","u4"]) +
           make_ldst_ops(["m8n8k128"], ["a", "b"], ["b1"]) +
           make_ldst_ops(["m8n8k32", "m8n8k128"],  ["c", "d"], ["s32"]))

 def is_geom_supported(geom):
   # geometries for FP and ints.
   if geom in ["m8n32k16", "m32n8k16"]:
     return ptx_version >= 61
   # geometries for sub-ints.
   if geom in ["m8n8k32", "m8n8k128"]:
     return ptx_version >= 63 and gpu_arch >= 75
   if geom == "m16n16k16":
     return ptx_version >= 60
   assert(False) # Unexpected geometry.

 def is_type_supported(ptx_type):
   if ptx_type in ["s8", "u8", "s32"]:
     return ptx_version >= 63 and gpu_arch >= 72
   if ptx_type in ["s4", "u4", "b1"]:
     return ptx_version >= 63 and gpu_arch >= 75
   return ptx_version >= 60 and gpu_arch >= 70

 def is_mma_variant_supported(op, layout_a, layout_b, satf):
   if not (is_type_supported(op.a.ptx_type)
           and is_geom_supported(op.a.geom)):
     return False
   # sub-integer require row/col layout, and no satf.
   if op.a.ptx_type in ["s4", "u4", "b1"]:
     if op.a.ptx_type == "b1" and satf:
       return False
     return layout_a == "row" and layout_b == "col"
   return True

 def is_ldst_variant_supported(frag, layout):
   if not (is_type_supported(frag.ptx_type)
           and is_geom_supported(frag.geom)):
     return False
   if frag.ptx_type in ["s4", "u4", "b1"]:
     # sub-integer require sm_75 and ptx63, row/col layout for a/b.
     return ((frag.frag == "a" and layout == "row")
             or (frag.frag == "b" and layout == "col")
             or frag.frag in ["c", "d"])
   return True

 def get_builtin_prefix(frag):
   prefix = None
   if frag.geom in ["m16n16k16", "m32n8k16", "m8n32k16"]:
     if frag.ptx_type in ["f16", "f32"]:
       prefix = "__hmma"
     else:
       prefix = "__imma"
   elif frag.geom == "m8n8k32":
     prefix = "__imma" # sub-integers
   elif frag.geom == "m8n8k128":
     prefix = "__bmma"
   assert prefix
   return prefix

 def get_ldst_builtin_name(frag):
   prefix = get_builtin_prefix(frag)

   if prefix == "__hmma":
     suffix = "" if frag.frag in ["a","b"] else frag.ptx_type
   elif prefix in ["__imma", "__bmma"]:
     suffix = "" if frag.frag in ["c"] else frag.ptx_type
     if suffix == "s32":
       suffix = "i32"
   if frag.frag == "d":
     ifrag = "c"
     op = "st"
   else:
     ifrag = frag.frag
     op = "ld"

   name = "%s_%s_%s_%s%s" % (prefix, frag.geom, op, ifrag,
                              "_" + suffix if suffix else "")
   return name

 def get_mma_builtin_name(op):
   prefix = get_builtin_prefix(op.a)

   if prefix == "__hmma":
     suffix = op.d.ptx_type + op.c.ptx_type
   else:
     suffix = op.a.ptx_type

   name = "%s_%s_mma%s_%s" % (prefix, op.a.geom,
                              "_xor_popc" if op.a.ptx_type == "b1" else "",
                              suffix)
   return name


 def get_required_sm(frag):
   if frag.ptx_type in ["u4", "s4", "b1"]:
     return 75
   if frag.ptx_type in ["s8", "u8"]:
     return 72
   if frag.ptx_type == "s32":
     if frag.geom in ["m8n8k32", "m8n8k128"]: # s4/u4/b1
       return 75
     else:                       # s8/u8
       return 72
   if frag.ptx_type in ["f16", "f32"]:
     return 70
   assert(False)

 def get_required_ptx(frag):
   if frag.ptx_type in ["f16", "f32"]:
     return 60 if frag.geom == "m16n16k16" else 61
   return 63

 def gen_wmma_ldst_tests(results):
   load_template = """
   // CHECK${check_suffix}: call {{.*}} @${intrinsic}
   // expected-error-re@+1 {{'${builtin}' needs target feature sm_${min_sm}{{.*}},ptx${min_ptx}{{.*}}}}
   ${builtin}(${dst}, ${src}, ldm, ${blayout});
 """.rstrip()
   intrinsic_template = "llvm.nvvm.wmma.${geom}.${op}.${frag}.${ilayout}.stride.${itype}"

   for frag, layout in sorted(product(get_ldst_ops(), ["row","col"]), key=str):

     if not is_ldst_variant_supported(frag, layout):
       continue

     is_fp = frag.ptx_type  == "f32"
     min_sm = get_required_sm(frag)
     min_ptx = get_required_ptx(frag)
     params = {
         "check_suffix" : "_PTX%d_SM%d" % (min_ptx, min_sm),
         "builtin" : get_ldst_builtin_name(frag),
         "min_ptx" : min_ptx,
         "min_sm" : min_sm,
         "dst": "fdst" if is_fp else "dst",
         "src": "fsrc" if is_fp else "src",
         "blayout" : 0 if layout == "row" else 1,
         "intrinsic" : Template(intrinsic_template).substitute({
             "frag" : frag.frag,
             "geom"   : frag.geom,
             "ilayout" : layout,
             "itype" : frag.ptx_type,
             "op" : "store" if frag.frag == "d" else "load",
         })
     }
     results[(min_ptx,min_sm)] += Template(load_template).substitute(params)

   return results

 def mma_signature(op):
   if op.a.ptx_type in ["s8", "u8", "s4", "u4", "b1"]:
     # int and sub-int ops are identified by input type.
     return op.a.ptx_type
   else:
     # the rest are FP ops identified by accumulator & result type.
     return "%s.%s" % (op.d.ptx_type, op.c.ptx_type)

 # Get numeric value for rowcol parameter of the builtin
 # AFAICT it uses the encoding accepted by NVVM intrinsics:
 # https://docs.nvidia.com/cuda/nvvm-ir-spec/index.html#nvvm-intrin-warp-level-matrix-mma
 def get_ilayout(a, b):
   return {
       "row.row" : 0,
       "row.col" : 1,
       "col.row" : 2,
       "col.col" : 3
   }[a + "." + b]

 def gen_wmma_mma_tests(results):
   mma_template = """
   // CHECK${check_suffix}: call {{.*}} @${intrinsic}
   // expected-error-re@+1 {{'${builtin}' needs target feature sm_${min_sm}{{.*}},ptx${min_ptx}{{.*}}}}
   ${builtin}(${dst}, ${asrc}, ${asrc}, ${csrc}, ${ilayout}${maybe_isatf});
 """.rstrip()
   intrinsic_template = "llvm.nvvm.wmma.${geom}.mma.${alayout}.${blayout}.${intrinsic_signature}${satf}"

   for op, alayout, blayout, satf in sorted(product( get_mma_ops(),
                                                     ["row","col"],
                                                     ["row","col"],
                                                     [".satfinite", ""]),
                                            key=str):

     if not is_mma_variant_supported(op, alayout, blayout, satf):
       continue

     a_is_fp = op.a.ptx_type  == "f32"
     c_is_fp = op.c.ptx_type  == "f32"
     d_is_fp = op.d.ptx_type  == "f32"
     min_sm = get_required_sm(op.a)
     min_ptx = get_required_ptx(op.a)
     if op.a.ptx_type == "b1": # .b1 MMA has no satf argument.
        isatf_arg = ""
     else:
        isatf_arg = ", 1" if satf else ", 0"
     params = {
         "check_suffix" : "_PTX%d_SM%d" % (min_ptx, min_sm),
         "builtin" : get_mma_builtin_name(op),
         "min_ptx" : min_ptx,
         "min_sm" : min_sm,
         "dst": "fdst" if d_is_fp else "dst",
         "asrc": "fsrc" if a_is_fp else "src",
         "csrc": "fsrc" if c_is_fp else "src",
         "ilayout" : get_ilayout(alayout, blayout),
         "maybe_isatf" : isatf_arg,
         "intrinsic" : Template(intrinsic_template).substitute({
             "geom"  : op.a.geom,
             "alayout" : alayout,
             "blayout" : blayout,
             "intrinsic_signature" : mma_signature(op),
             "satf"  : satf,
         })
     }
     results[(min_ptx, min_sm)] += Template(mma_template).substitute(params)

   return results

 def gen_tests():
   results = gen_wmma_ldst_tests(defaultdict(str))
   results = gen_wmma_mma_tests(results)

   run_template = r"""
 //
 // *** DO NOT EDIT ***
 //
 //  This test has been automatically generated by
 //  builtins-nvtx-mma.py --ptx=${ptx} --gpu-arch=${sm}
 //
 // Make sure we can handle all builtins available on sm_${sm} with PTX${ptx}
 // ${run}: %clang_cc1 -triple nvptx64-unknown-unknown -target-cpu sm_${sm} \
 // ${run}:            -fcuda-is-device -target-feature +ptx${ptx} \
 // ${run}:            -DPTX=${ptx} -DSM=${sm} \
 // ${run}:            -S -emit-llvm -o - -x cuda %s \
 // ${run}:   | FileCheck -check-prefixes=${check_labels} %s
 // Verify that all builtins have correct constraints.
 // ${run}: %clang_cc1 -triple nvptx-unknown-unknown \
 // ${run}:   -target-cpu sm_60 -target-feature +ptx42 \
 // ${run}:   -DPTX=${ptx} -DSM=${sm} -fcuda-is-device -S -o /dev/null -x cuda \
 // ${run}:   -verify %s
 """
   def supported_variants(ptx, sm, results):
     return [(ptx_, sm_) for ptx_, sm_ in results if ptx_ <= ptx and sm_ <= sm]

   print(Template(run_template).substitute({
       "run" : "RUN", # To avoid lit misinterpreting the template
       "ptx" : ptx_version,
       "sm" : gpu_arch,
       "check_labels" : ",".join(["CHECK_PTX%d_SM%d" % (ptx_, sm_)
                                  for ptx_, sm_
                                  in supported_variants(ptx_version, gpu_arch,
                                                        results)])
   }))

   print("""
 #if !defined(CUDA_VERSION)
 #define __device__ __attribute__((device))
 #define __global__ __attribute__((global))
 #define __shared__ __attribute__((shared))
 #define __constant__ __attribute__((constant))

 typedef unsigned long long uint64_t;
 #endif

 // CHECK-LABEL: test_wmma_buitins
 __device__ void test_wmma_buitins(int *src, int *dst,
                                   float *fsrc, float *fdst, int ldm) {
 """);

   for (ptx, sm), tests in sorted(results.items()):
     print()
     print("#if (PTX >= %d) && (SM >= %d)" % (ptx, sm))
     print(tests)
     print("#endif // (PTX >= %d) && (SM >= %d) "% (ptx, sm))

   print("}")

 parser = argparse.ArgumentParser()
 parser.add_argument("--ptx", type=int, default=60)
 parser.add_argument("--gpu-arch", type=int, default=70)
 args = parser.parse_args()
 ptx_version = args.ptx
 gpu_arch = args.gpu_arch

 gen_tests()
	# This script generates all variants of wmma builtins, verifies that clang calls
	# correct LLVM instrinsics, and checks that availability of specific builtins is
	# constrained by the correct PTX version and the target GPU variant.

	# Dummy test run to avoid lit warnings.
	# RUN: echo "This is not a real test. It's a generator for builtins-nvpts-mma.cu" >/dev/null

	from __future__ import print_function

	import argparse
	from collections import defaultdict
	from itertools import product
	from string import Template

	class MMAFrag:
	def __init__(self, geom, frag, ptx_elt_type):
	self.geom = geom
	self.frag = frag
	self.ptx_type = ptx_elt_type;

	def __repr__(self):
	return "%s:%s:%s" % (self.geom, self.frag, self.ptx_type)

	class MMAOp:
	def __init__(self, a, b, c, d):
	self.a = a
	self.b = b
	self.c = c
	self.d = d

	def __repr__(self):
	return ("{A:%s, B:%s, C:%s, D:%s}" % (self.a, self.b, self.c, self.d ))

	def make_mma_ops(geoms, types_a, types_b, types_c, types_d):
	ops = []
	for geom, type_a, type_c in product( geoms, types_a, types_c):
	for type_b, type_d in product(types_b if types_b else [type_a],
	types_d if types_d else [type_c]):
	ops.append(MMAOp(MMAFrag(geom, "a", type_a),
	MMAFrag(geom, "b", type_b),
	MMAFrag(geom, "c", type_c),
	MMAFrag(geom, "d", type_d)))
	return ops

	def make_ldst_ops(geoms, frags, types):
	return [MMAFrag(geom, frag, ptx_type) for (geom, frag, ptx_type)
	in product(geoms, frags, types)]

	def get_mma_ops():
	return (make_mma_ops(["m16n16k16", "m32n8k16", "m8n32k16"],
	["f16"], [], ["f16", "f32"], ["f16", "f32"]) +
	make_mma_ops(["m16n16k16", "m32n8k16", "m8n32k16"],
	["s8", "u8"], [], ["s32"], []) +
	make_mma_ops(["m8n8k32"],
	["s4", "u4"], [], ["s32"], []) +
	make_mma_ops(["m8n8k128"],
	["b1"], [], ["s32"], []))
	def get_ldst_ops():
	return (make_ldst_ops(["m16n16k16", "m32n8k16", "m8n32k16"],
	["a", "b"], ["f16", "u8", "s8"]) +
	make_ldst_ops(["m16n16k16", "m32n8k16", "m8n32k16"],
	["c", "d"], ["f16", "f32", "s32"]) +
	make_ldst_ops(["m8n8k32"], ["a", "b"], ["s4","u4"]) +
	make_ldst_ops(["m8n8k128"], ["a", "b"], ["b1"]) +
	make_ldst_ops(["m8n8k32", "m8n8k128"], ["c", "d"], ["s32"]))

	def is_geom_supported(geom):
	# geometries for FP and ints.
	if geom in ["m8n32k16", "m32n8k16"]:
	return ptx_version >= 61
	# geometries for sub-ints.
	if geom in ["m8n8k32", "m8n8k128"]:
	return ptx_version >= 63 and gpu_arch >= 75
	if geom == "m16n16k16":
	return ptx_version >= 60
	assert(False) # Unexpected geometry.

	def is_type_supported(ptx_type):
	if ptx_type in ["s8", "u8", "s32"]:
	return ptx_version >= 63 and gpu_arch >= 72
	if ptx_type in ["s4", "u4", "b1"]:
	return ptx_version >= 63 and gpu_arch >= 75
	return ptx_version >= 60 and gpu_arch >= 70

	def is_mma_variant_supported(op, layout_a, layout_b, satf):
	if not (is_type_supported(op.a.ptx_type)
	and is_geom_supported(op.a.geom)):
	return False
	# sub-integer require row/col layout, and no satf.
	if op.a.ptx_type in ["s4", "u4", "b1"]:
	if op.a.ptx_type == "b1" and satf:
	return False
	return layout_a == "row" and layout_b == "col"
	return True

	def is_ldst_variant_supported(frag, layout):
	if not (is_type_supported(frag.ptx_type)
	and is_geom_supported(frag.geom)):
	return False
	if frag.ptx_type in ["s4", "u4", "b1"]:
	# sub-integer require sm_75 and ptx63, row/col layout for a/b.
	return ((frag.frag == "a" and layout == "row")
	or (frag.frag == "b" and layout == "col")
	or frag.frag in ["c", "d"])
	return True

	def get_builtin_prefix(frag):
	prefix = None
	if frag.geom in ["m16n16k16", "m32n8k16", "m8n32k16"]:
	if frag.ptx_type in ["f16", "f32"]:
	prefix = "__hmma"
	else:
	prefix = "__imma"
	elif frag.geom == "m8n8k32":
	prefix = "__imma" # sub-integers
	elif frag.geom == "m8n8k128":
	prefix = "__bmma"
	assert prefix
	return prefix

	def get_ldst_builtin_name(frag):
	prefix = get_builtin_prefix(frag)

	if prefix == "__hmma":
	suffix = "" if frag.frag in ["a","b"] else frag.ptx_type
	elif prefix in ["__imma", "__bmma"]:
	suffix = "" if frag.frag in ["c"] else frag.ptx_type
	if suffix == "s32":
	suffix = "i32"
	if frag.frag == "d":
	ifrag = "c"
	op = "st"
	else:
	ifrag = frag.frag
	op = "ld"

	name = "%s_%s_%s_%s%s" % (prefix, frag.geom, op, ifrag,
	"_" + suffix if suffix else "")
	return name

	def get_mma_builtin_name(op):
	prefix = get_builtin_prefix(op.a)

	if prefix == "__hmma":
	suffix = op.d.ptx_type + op.c.ptx_type
	else:
	suffix = op.a.ptx_type

	name = "%s_%s_mma%s_%s" % (prefix, op.a.geom,
	"_xor_popc" if op.a.ptx_type == "b1" else "",
	suffix)
	return name


	def get_required_sm(frag):
	if frag.ptx_type in ["u4", "s4", "b1"]:
	return 75
	if frag.ptx_type in ["s8", "u8"]:
	return 72
	if frag.ptx_type == "s32":
	if frag.geom in ["m8n8k32", "m8n8k128"]: # s4/u4/b1
	return 75
	else: # s8/u8
	return 72
	if frag.ptx_type in ["f16", "f32"]:
	return 70
	assert(False)

	def get_required_ptx(frag):
	if frag.ptx_type in ["f16", "f32"]:
	return 60 if frag.geom == "m16n16k16" else 61
	return 63

	def gen_wmma_ldst_tests(results):
	load_template = """
	// CHECK${check_suffix}: call {{.*}} @${intrinsic}
	// expected-error-re@+1 {{'${builtin}' needs target feature sm_${min_sm}{{.}},ptx${min_ptx}{{.}}}}
	${builtin}(${dst}, ${src}, ldm, ${blayout});
	""".rstrip()
	intrinsic_template = "llvm.nvvm.wmma.${geom}.${op}.${frag}.${ilayout}.stride.${itype}"

	for frag, layout in sorted(product(get_ldst_ops(), ["row","col"]), key=str):

	if not is_ldst_variant_supported(frag, layout):
	continue

	is_fp = frag.ptx_type == "f32"
	min_sm = get_required_sm(frag)
	min_ptx = get_required_ptx(frag)
	params = {
	"check_suffix" : "_PTX%d_SM%d" % (min_ptx, min_sm),
	"builtin" : get_ldst_builtin_name(frag),
	"min_ptx" : min_ptx,
	"min_sm" : min_sm,
	"dst": "fdst" if is_fp else "dst",
	"src": "fsrc" if is_fp else "src",
	"blayout" : 0 if layout == "row" else 1,
	"intrinsic" : Template(intrinsic_template).substitute({
	"frag" : frag.frag,
	"geom" : frag.geom,
	"ilayout" : layout,
	"itype" : frag.ptx_type,
	"op" : "store" if frag.frag == "d" else "load",
	})
	}
	results[(min_ptx,min_sm)] += Template(load_template).substitute(params)

	return results

	def mma_signature(op):
	if op.a.ptx_type in ["s8", "u8", "s4", "u4", "b1"]:
	# int and sub-int ops are identified by input type.
	return op.a.ptx_type
	else:
	# the rest are FP ops identified by accumulator & result type.
	return "%s.%s" % (op.d.ptx_type, op.c.ptx_type)

	# Get numeric value for rowcol parameter of the builtin
	# AFAICT it uses the encoding accepted by NVVM intrinsics:
	# https://docs.nvidia.com/cuda/nvvm-ir-spec/index.html#nvvm-intrin-warp-level-matrix-mma
	def get_ilayout(a, b):
	return {
	"row.row" : 0,
	"row.col" : 1,
	"col.row" : 2,
	"col.col" : 3
	}[a + "." + b]

	def gen_wmma_mma_tests(results):
	mma_template = """
	// CHECK${check_suffix}: call {{.*}} @${intrinsic}
	// expected-error-re@+1 {{'${builtin}' needs target feature sm_${min_sm}{{.}},ptx${min_ptx}{{.}}}}
	${builtin}(${dst}, ${asrc}, ${asrc}, ${csrc}, ${ilayout}${maybe_isatf});
	""".rstrip()
	intrinsic_template = "llvm.nvvm.wmma.${geom}.mma.${alayout}.${blayout}.${intrinsic_signature}${satf}"

	for op, alayout, blayout, satf in sorted(product( get_mma_ops(),
	["row","col"],
	["row","col"],
	[".satfinite", ""]),
	key=str):

	if not is_mma_variant_supported(op, alayout, blayout, satf):
	continue

	a_is_fp = op.a.ptx_type == "f32"
	c_is_fp = op.c.ptx_type == "f32"
	d_is_fp = op.d.ptx_type == "f32"
	min_sm = get_required_sm(op.a)
	min_ptx = get_required_ptx(op.a)
	if op.a.ptx_type == "b1": # .b1 MMA has no satf argument.
	isatf_arg = ""
	else:
	isatf_arg = ", 1" if satf else ", 0"
	params = {
	"check_suffix" : "_PTX%d_SM%d" % (min_ptx, min_sm),
	"builtin" : get_mma_builtin_name(op),
	"min_ptx" : min_ptx,
	"min_sm" : min_sm,
	"dst": "fdst" if d_is_fp else "dst",
	"asrc": "fsrc" if a_is_fp else "src",
	"csrc": "fsrc" if c_is_fp else "src",
	"ilayout" : get_ilayout(alayout, blayout),
	"maybe_isatf" : isatf_arg,
	"intrinsic" : Template(intrinsic_template).substitute({
	"geom" : op.a.geom,
	"alayout" : alayout,
	"blayout" : blayout,
	"intrinsic_signature" : mma_signature(op),
	"satf" : satf,
	})
	}
	results[(min_ptx, min_sm)] += Template(mma_template).substitute(params)

	return results

	def gen_tests():
	results = gen_wmma_ldst_tests(defaultdict(str))
	results = gen_wmma_mma_tests(results)

	run_template = r"""
	//
	// * DO NOT EDIT *
	//
	// This test has been automatically generated by
	// builtins-nvtx-mma.py --ptx=${ptx} --gpu-arch=${sm}
	//
	// Make sure we can handle all builtins available on sm_${sm} with PTX${ptx}
	// ${run}: %clang_cc1 -triple nvptx64-unknown-unknown -target-cpu sm_${sm} \
	// ${run}: -fcuda-is-device -target-feature +ptx${ptx} \
	// ${run}: -DPTX=${ptx} -DSM=${sm} \
	// ${run}: -S -emit-llvm -o - -x cuda %s \
	// ${run}: \| FileCheck -check-prefixes=${check_labels} %s
	// Verify that all builtins have correct constraints.
	// ${run}: %clang_cc1 -triple nvptx-unknown-unknown \
	// ${run}: -target-cpu sm_60 -target-feature +ptx42 \
	// ${run}: -DPTX=${ptx} -DSM=${sm} -fcuda-is-device -S -o /dev/null -x cuda \
	// ${run}: -verify %s
	"""
	def supported_variants(ptx, sm, results):
	return [(ptx_, sm_) for ptx_, sm_ in results if ptx_ <= ptx and sm_ <= sm]

	print(Template(run_template).substitute({
	"run" : "RUN", # To avoid lit misinterpreting the template
	"ptx" : ptx_version,
	"sm" : gpu_arch,
	"check_labels" : ",".join(["CHECK_PTX%d_SM%d" % (ptx_, sm_)
	for ptx_, sm_
	in supported_variants(ptx_version, gpu_arch,
	results)])
	}))

	print("""
	#if !defined(CUDA_VERSION)
	#define __device__ __attribute__((device))
	#define __global__ __attribute__((global))
	#define __shared__ __attribute__((shared))
	#define __constant__ __attribute__((constant))

	typedef unsigned long long uint64_t;
	#endif

	// CHECK-LABEL: test_wmma_buitins
	__device__ void test_wmma_buitins(int src, int dst,
	float fsrc, float fdst, int ldm) {
	""");

	for (ptx, sm), tests in sorted(results.items()):
	print()
	print("#if (PTX >= %d) && (SM >= %d)" % (ptx, sm))
	print(tests)
	print("#endif // (PTX >= %d) && (SM >= %d) "% (ptx, sm))

	print("}")

	parser = argparse.ArgumentParser()
	parser.add_argument("--ptx", type=int, default=60)
	parser.add_argument("--gpu-arch", type=int, default=70)
	args = parser.parse_args()
	ptx_version = args.ptx
	gpu_arch = args.gpu_arch

	gen_tests()