工具环境python3运行环境SOC端内部测试用途给SOC的CPU单个核以及MEM加压文件说明以及主要用法 CPU Loader import os import sys import time import math import signal import argparse from multiprocessing import Process TOTAL_CORES 12 def cpu_worker(core_id, load_pct, interval): 绑定核 core_id: 指定核的id load_pct占用百分比 interval控制时长(秒) try: os.sched_setaffinity(0, {core_id}) except Exception as e: print([Worker-%d] Cannot bind to core %d: %s % (core_id, core_id, e)) return print([Worker-%d] Started, target load: %d%% % (core_id, load_pct)) while True: busy interval * (load_pct / 100.0) idle interval - busy start time.perf_counter() while (time.perf_counter() - start) busy: math.sqrt(12345.6789) math.sin(0.5) math.cos(0.5) math.pow(2, 10) if idle 0: time.sleep(idle) def mem_worker(size_mb): MEM占用 size_mb占用大小MB data [] chunk 1024 * 1024 print([Memory] Allocating %d MB % size_mb) for i in range(size_mb): data.append(bytearray(chunk)) if i % 10 0: for j in range(0, len(data), max(1, len(data)//10)): data[j][0] 1 while True: time.sleep(1) for chunk in data: chunk[0] 1 def signal_handler(signum, frame): print(Stopping...) sys.exit(0) def main(): 命令基本描述 -c, --cores 指定核心 0,1,2 或 all 0,1,2,3,4,5 -l, --load 负载百分比 0-100 50 -a, --all 使用全部12核 - -m, --memory 额外内存占用(MB) 0 -d, --daemon 后台守护运行 - -i, --interval 控制周期(秒) 0.1 parser argparse.ArgumentParser(descriptionCPU Loader) parser.add_argument(-c, --cores, default0,1,2,3,4,5, helpCores to use: 0,1,2 or all) parser.add_argument(-l, --load, typeint, default50, helpLoad percent 0-100) parser.add_argument(-a, --all, actionstore_true, helpUse all 12 cores) parser.add_argument(-m, --memory, typeint, default0, helpMemory to allocate in MB) parser.add_argument(-d, --daemon, actionstore_true, helpRun as daemon) parser.add_argument(-i, --interval, typefloat, default0.1, helpControl interval in seconds) args parser.parse_args() signal.signal(signal.SIGINT, signal_handler) signal.signal(signal.SIGTERM, signal_handler) # Parse core list if args.all or args.cores all: cores list(range(TOTAL_CORES)) elif , in args.cores: cores [int(x.strip()) for x in args.cores.split(,)] else: cores [int(args.cores)] # Validate for c in cores: if c 0 or c TOTAL_CORES: print(Error: Core %d out of range (0-%d) % (c, TOTAL_CORES-1)) sys.exit(1) if args.load 0 or args.load 100: print(Error: Load must be 0-100) sys.exit(1) print( * 50) print(CPU Loader) print( * 50) print(Cores: %s % cores) print(Load: %d%% % args.load) print(Interval: %.2fs % args.interval) if args.memory 0: print(Memory: %d MB % args.memory) print( * 50) # Daemon mode if args.daemon: pid os.fork() if pid 0: print(Daemon PID: %d % pid) sys.exit(0) os.setsid() # Start workers procs [] for c in cores: p Process(targetcpu_worker, args(c, args.load, args.interval)) p.start() procs.append(p) if args.memory 0: p Process(targetmem_worker, args(args.memory,)) p.start() procs.append(p) print(Started %d worker(s), CtrlC to stop % len(cores)) try: while True: time.sleep(1) except KeyboardInterrupt: pass finally: print(Stopping workers...) for p in procs: p.terminate() p.join(timeout1) if p.is_alive(): p.kill() print(Done) if __name__ __main__: main()给CPU和MEM加压的主要工具 CPU Monitor import os import time import sys def read_stats(): with open(/proc/stat, r) as f: lines f.readlines() data {} for line in lines: if line.startswith(cpu): parts line.split() data[parts[0]] list(map(int, parts[1:])) return data def calc_usage(prev, curr): p_total sum(prev) c_total sum(curr) diff c_total - p_total if diff 0: return 0.0 p_idle prev[3] prev[4] c_idle curr[3] curr[4] idle_diff c_idle - p_idle return (diff - idle_diff) / diff * 100 def get_freq(core): try: path /sys/devices/system/cpu/cpu%d/cpufreq/scaling_cur_freq % core with open(path, r) as f: return int(f.read().strip()) / 1000 except: return 0 def get_temp(): temps [] for i in range(10): try: path /sys/class/thermal/thermal_zone%d/temp % i with open(path, r) as f: temps.append(int(f.read().strip()) / 1000) except: pass return max(temps) if temps else 0 def main(): print( * 60) print(AGX CPU Monitor) print( * 60) print(Press CtrlC to exit) prev read_stats() try: while True: time.sleep(1) curr read_stats() os.system(clear) print( * 60) print(CPU Monitor - %s % time.strftime(%H:%M:%S)) print( * 60) if cpu in prev and cpu in curr: total calc_usage(prev[cpu], curr[cpu]) temp get_temp() print(Total: %.1f%% | Temp: %.1fC % (total, temp)) print(%-6s %-8s %-10s %-8s %-8s %-8s % ( Core, Load, Freq, User, Sys, Idle)) print(- * 60) for i in range(12): name cpu%d % i if name in prev and name in curr: usage calc_usage(prev[name], curr[name]) freq get_freq(i) d [c - p for c, p in zip(curr[name], prev[name])] total_d sum(d) if sum(d) 0 else 1 user d[0] / total_d * 100 sys_ d[2] / total_d * 100 idle (d[3] d[4]) / total_d * 100 color reset if usage 80: color [31m elif usage 50: color [33m else: color [32m reset [0m print(%sCPU%-3d %6.1f%% %6.0fMHz %6.1f%% %6.1f%% %6.1f%%%s % ( color, i, usage, freq, user, sys_, idle, reset)) print( * 60) print(Green: 50%% | Yellow: 50-80%% | Red: 80%%) prev curr except KeyboardInterrupt: print(Exited) if __name__ __main__: main()正常运行的结果如下参数说明默认-c, --cores指定核心0,1,2或all上限为11个0,1,2,3,4,5-l, --load负载百分比 0-10050-a, --all使用全部12核--m, --memory额外内存占用(MB)0-d, --daemon后台守护运行--i, --interval控制周期(秒)0.1运行参数举例说明占用6个核心50%负载python3 cpu_loader.py -c 0,1,2,3,4,5 -l 50占用所有12核30%负载python3 cpu_loader.py -a -l 30指定核心满载python3 cpu_loader.py -c 0,1,2 -l 100后台运行python3 cpu_loader.py -c 6 -l 80 -d同时占用内存python3 cpu_loader.py -c 6 -l 80 -m 1000运行python3 cpu_monitor.py一个在SOC内部实时监控CPU情况的终端正常运行的情况如下退出请按ctrlc基于上面的工具的快速测试脚本# CPU 负载测试脚本 # 一键测试各种负载场景 echo echo ️ CPU 负载测试工具 echo echo # 检查是否 root if [ $EUID -ne 0 ]; then echo ⚠️ 建议使用 sudo 运行以获得最佳效果 echo fi # 测试场景 declare -a tests( 6核50%负载:python3 cpu_loader.py -c 0,1,2,3,4,5 -l 50 6核80%负载:python3 cpu_loader.py -c 0,1,2,3,4,5 -l 80 6核100%负载:python3 cpu_loader.py -c 0,1,2,3,4,5 -l 100 12核30%负载:python3 cpu_loader.py -a -l 30 12核50%负载:python3 cpu_loader.py -a -l 50 12核100%负载:python3 cpu_loader.py -a -l 100 单核满载:python3 cpu_loader.py -c 0 -l 100 4核满载内存:python3 cpu_loader.py -c 0,1,2,3 -l 100 -m 500 ) echo 选择测试场景: for i in ${!tests[]}; do name${tests[$i]%%:*} echo $((i1)). $name done echo 0. 退出 echo read -p 请输入编号: choice if [ $choice -eq 0 ]; then exit 0 fi if [ $choice -lt 1 ] || [ $choice -gt ${#tests[]} ]; then echo ❌ 无效选择 exit 1 fi # 获取命令 cmd${tests[$((choice-1))]#*:} name${tests[$((choice-1))]%%:*} echo echo echo 启动测试: $name echo 命令: $cmd echo echo echo 按 CtrlC 停止 echo # 在新终端中运行监控 if command -v gnome-terminal /dev/null; then gnome-terminal -- python3 agx_cpu_monitor.py elif command -v xterm /dev/null; then xterm -e python3 agx_cpu_monitor.py fi # 运行负载 $cmd # 清理 echo echo ✅ 测试结束