Add more GPU architectures support (#112)

* Add more GPU architectures support

* Update layout.py

* Optimize performance, Add SM90 support, Add 1D2D SM100 support

* Add fmtlib submodule at commit 553ec11

---------

Co-authored-by: fzyzcjy <5236035+fzyzcjy@users.noreply.github.com>

deep_gemm/testing/__init__.py

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+from . import bench, numeric
+from .bench import *
+from .numeric import *

deep_gemm/testing/bench.py

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+import os
+import sys
+import torch
+
+
+def bench(fn, num_warmups: int = 5, num_tests: int = 10,
+          high_precision: bool = False):
+    # Flush L2 cache with 256 MB data
+    torch.cuda.synchronize()
+    cache = torch.empty(int(256e6 // 4), dtype=torch.int, device='cuda')
+    cache.zero_()
+
+    # Warmup
+    for _ in range(num_warmups):
+        fn()
+
+    # Add a large kernel to eliminate the CPU launch overhead
+    if high_precision:
+        x = torch.randn((8192, 8192), dtype=torch.float, device='cuda')
+        y = torch.randn((8192, 8192), dtype=torch.float, device='cuda')
+        x @ y
+
+    # Testing
+    start_event = torch.cuda.Event(enable_timing=True)
+    end_event = torch.cuda.Event(enable_timing=True)
+    start_event.record()
+    for i in range(num_tests):
+        fn()
+    end_event.record()
+    torch.cuda.synchronize()
+
+    return start_event.elapsed_time(end_event) / num_tests / 1e3
+
+
+class empty_suppress:
+    def __enter__(self):
+        return self
+
+    def __exit__(self, *_):
+        pass
+
+
+class suppress_stdout_stderr:
+    def __enter__(self):
+        self.outnull_file = open(os.devnull, 'w')
+        self.errnull_file = open(os.devnull, 'w')
+
+        self.old_stdout_fileno_undup = sys.stdout.fileno()
+        self.old_stderr_fileno_undup = sys.stderr.fileno()
+
+        self.old_stdout_fileno = os.dup(sys.stdout.fileno())
+        self.old_stderr_fileno = os.dup(sys.stderr.fileno())
+
+        self.old_stdout = sys.stdout
+        self.old_stderr = sys.stderr
+
+        os.dup2(self.outnull_file.fileno(), self.old_stdout_fileno_undup)
+        os.dup2(self.errnull_file.fileno(), self.old_stderr_fileno_undup)
+
+        sys.stdout = self.outnull_file
+        sys.stderr = self.errnull_file
+        return self
+
+    def __exit__(self, *_):
+        sys.stdout = self.old_stdout
+        sys.stderr = self.old_stderr
+
+        os.dup2(self.old_stdout_fileno, self.old_stdout_fileno_undup)
+        os.dup2(self.old_stderr_fileno, self.old_stderr_fileno_undup)
+
+        os.close(self.old_stdout_fileno)
+        os.close(self.old_stderr_fileno)
+
+        self.outnull_file.close()
+        self.errnull_file.close()
+
+
+def bench_kineto(fn, kernel_names, num_tests: int = 30,
+                 suppress_kineto_output: bool = False,
+                 trace_path: str = None, flush_l2: bool = True,
+                 with_multiple_kernels: bool = False):
+    # Conflict with Nsight Systems
+    using_nsys = int(os.environ.get('DG_NSYS_PROFILING', 0))
+
+    # By default, flush L2 with an excessive 8GB memset to give the GPU some (literal) chill time without full idle
+    flush_l2_size = int(8e9 // 4)
+
+    # For some auto-tuning kernels with prints
+    fn()
+
+    # Profile
+    suppress = suppress_stdout_stderr if suppress_kineto_output and not using_nsys else empty_suppress
+    with suppress():
+        schedule = torch.profiler.schedule(wait=0, warmup=1, active=1, repeat=1) if not using_nsys else None
+        profiler = torch.profiler.profile(activities=[torch.profiler.ProfilerActivity.CUDA], schedule=schedule) if not using_nsys else empty_suppress()
+        with profiler:
+            for i in range(2):
+                for _ in range(num_tests):
+                    if flush_l2:
+                        torch.empty(flush_l2_size, dtype=torch.int, device='cuda').zero_()
+                    fn()
+
+                if not using_nsys:
+                    profiler.step()
+
+    # Return 1 if using Nsight Systems
+    if using_nsys:
+        return 1
+
+    # Parse the profiling table
+    assert isinstance(kernel_names, str) or isinstance(kernel_names, tuple)
+    is_tuple = isinstance(kernel_names, tuple)
+    prof_lines = profiler.key_averages().table(sort_by='cuda_time_total', max_name_column_width=100).split('\n')
+    kernel_names = (kernel_names, ) if isinstance(kernel_names, str) else kernel_names
+    assert all([isinstance(name, str) for name in kernel_names])
+    if not with_multiple_kernels:
+        for name in kernel_names:
+            assert sum([name in line for line in prof_lines]) == 1, f'Errors of the kernel {name} in the profiling table'
+
+    # Save chrome traces
+    if trace_path is not None:
+        profiler.export_chrome_trace(trace_path)
+
+    # Return average kernel times
+    units = {'ms': 1e3, 'us': 1e6}
+    kernel_times = []
+    for name in kernel_names:
+        total_time = 0
+        total_num = 0
+        for line in prof_lines:
+            if name in line:
+                time_str = line.split()[-2]
+                num_str = line.split()[-1]
+                for unit, scale in units.items():
+                    if unit in time_str:
+                        total_time += float(time_str.replace(unit, '')) / scale * int(num_str)
+                        total_num += int(num_str)
+                        break
+        kernel_times.append(total_time / total_num)
+
+    return tuple(kernel_times) if is_tuple else kernel_times[0]

deep_gemm/testing/numeric.py

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+import torch
+from typing import Iterable
+
+
+def calc_diff(x: torch.Tensor, y: torch.Tensor):
+    x, y = x.double(), y.double()
+    denominator = (x * x + y * y).sum()
+    sim = 2 * (x * y).sum() / denominator
+    return 1 - sim
+
+
+def count_bytes(*tensors):
+    total = 0
+    for t in tensors:
+        if isinstance(t, (tuple, list)):
+            total += count_bytes(*t)
+        elif t is not None:
+            total += t.numel() * t.element_size()
+    return total