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import pandas as pd |
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from huggingface_hub import snapshot_download |
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import subprocess |
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import re |
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try: |
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from src.display.utils import GPU_TEMP, GPU_Mem, GPU_Power, GPU_Util, GPU_Name |
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except: |
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print("local debug: from display.utils") |
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from display.utils import GPU_TEMP, GPU_Mem, GPU_Power, GPU_Util, GPU_Name |
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def my_snapshot_download(repo_id, revision, local_dir, repo_type, max_workers): |
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for i in range(10): |
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try: |
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snapshot_download( |
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repo_id=repo_id, revision=revision, local_dir=local_dir, repo_type=repo_type, max_workers=max_workers |
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) |
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return |
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except Exception as e: |
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print(f"Failed to download {repo_id} at {revision} with error: {e}. Retrying...") |
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import time |
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time.sleep(60) |
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return |
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def get_dataset_url(row): |
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dataset_name = row["Benchmark"] |
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dataset_url = row["Dataset Link"] |
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benchmark = f'<a target="_blank" href="{dataset_url}" style="color: var(--link-text-color); text-decoration: underline;text-decoration-style: dotted;">{dataset_name}</a>' |
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return benchmark |
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def get_dataset_summary_table(file_path): |
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df = pd.read_csv(file_path) |
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df["Benchmark"] = df.apply(lambda x: get_dataset_url(x), axis=1) |
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df = df[["Category", "Benchmark", "Data Split", "Data Size", "Language"]] |
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return df |
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def parse_nvidia_smi(): |
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result = subprocess.run(['nvidia-smi'], capture_output=True, text=True) |
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output = result.stdout.strip() |
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gpu_stats = [] |
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gpu_info_pattern = re.compile(r'(\d+)C\s+P\d+\s+(\d+)W / \d+W\s+\|\s+(\d+)MiB / \d+MiB\s+\|\s+(\d+)%') |
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gpu_name_pattern = re.compile(r'NVIDIA\s+([\w\s]+?\d+GB)') |
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lines = output.split('\n') |
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gpu_name = "" |
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for line in lines: |
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match = gpu_info_pattern.search(line) |
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name_match = gpu_name_pattern.search(line) |
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gpu_info = {} |
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if name_match: |
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gpu_name = name_match.group(1).strip() |
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if match: |
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temp, power_usage, mem_usage, gpu_util = map(int, match.groups()) |
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gpu_info.update({ |
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GPU_TEMP: temp, |
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GPU_Power: power_usage, |
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GPU_Mem: mem_usage, |
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GPU_Util: gpu_util |
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}) |
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if len(gpu_info) >= 4: |
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gpu_stats.append(gpu_info) |
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gpu_name = f"{len(gpu_stats)}x{gpu_name}" |
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gpu_stats_total = { |
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GPU_TEMP: 0, |
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GPU_Power: 0, |
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GPU_Mem: 0, |
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GPU_Util: 0, |
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GPU_Name: gpu_name |
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} |
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for gpu_stat in gpu_stats: |
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gpu_stats_total[GPU_TEMP] += gpu_stat[GPU_TEMP] |
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gpu_stats_total[GPU_Power] += gpu_stat[GPU_Power] |
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gpu_stats_total[GPU_Mem] += gpu_stat[GPU_Mem] |
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gpu_stats_total[GPU_Util] += gpu_stat[GPU_Util] |
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gpu_stats_total[GPU_TEMP] /= len(gpu_stats) |
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gpu_stats_total[GPU_Power] /= len(gpu_stats) |
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gpu_stats_total[GPU_Util] /= len(gpu_stats) |
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return [gpu_stats_total] |
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def monitor_gpus(stop_event, interval, stats_list): |
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while not stop_event.is_set(): |
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gpu_stats = parse_nvidia_smi() |
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if gpu_stats: |
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stats_list.extend(gpu_stats) |
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stop_event.wait(interval) |
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def analyze_gpu_stats(stats_list): |
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if not stats_list: |
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return None |
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avg_stats = {} |
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max_stats = {} |
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for key in stats_list[0].keys(): |
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if key != GPU_Mem and key != GPU_Name: |
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total = sum(d[key] for d in stats_list) |
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avg_stats[key] = total / len(stats_list) |
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max_stats[GPU_Mem] = max(d[GPU_Mem] for d in stats_list) |
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if GPU_Name in stats_list[0]: |
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avg_stats[GPU_Name] = stats_list[0][GPU_Name] |
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avg_stats.update(max_stats) |
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return avg_stats |
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if __name__ == "__main__": |
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print(analyze_gpu_stats(parse_nvidia_smi())) |
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