Graph Processing Basic Notes
Graph System
| Classification | In-memory | Out-of-core |
|---|---|---|
| Single machine | Ligra | GraphChi |
| Polymer | X-Stream | |
| Galois | GridGraph | |
| Mosaic | ||
| Distributed | Pregel | Chaos |
| PowerGraph | ||
| PowerLyra | ||
| Gemini |
NUMA Architecture
引入了 Node 和 Distance:
- 对于 CPU 和 Memory 这两种最宝贵的硬件资源, NUMA 用近乎严格的方式划分了所属的资源组 (Node), 而每个资源组内的 CPU 和 Memory 几乎相等
- 资源组的数量取决于物理 CPU 的个数
- Distance 用来定义各个 Node 之间调用资源的开销, 为资源调度优化算法提供数据支持
每个进程(或线程)都会从父进程继承 NUMA 策略, 并分配有一个优先 node. 如果 NUMA 策略允许的话,进程可以调用其他 node 上的资源.
CPU Schedule
- CPU Node Bind: 规定进程运行在某几个 node 之上
- Physical CPU Bind: 精细地规定进程运行在哪些核上
Memory Schedule
- Local Allocation: 从当前 Node 上请求分配内存
- Preferred: 比较宽松地指定了一个推荐的 node 来获取内存, 如果被推荐的 node 上没有足够内存, 进程可以尝试别的 node
- Memory Bind: 可以指定若干个 node,进 程只能从这些指定的 node 上请求分配内存
- Interleave: 规定进程从指定的若干个 node 上以 RR (Round Robin) 交织地请求分配内存
NUMA 默认的内存分配策略是优先在进程所在 CPU 的本地内存中分配, 会导致 CPU 节点之间内存分配不均衡. 当某个 CPU 节点的内存不足时, 会导致 swap 产生, 而不是从远程节点分配内存, 这就是 swap insanity 现象
Dataset
Tools
Concurrency Lib
Perf Tools
Hardware Performance Counter
Parallel Programming
Other Libs
DRAMSim2
GCC
strict-alias warnings
for strict-aliasing warnings:
- use a union to represent the memory need to reinterpret
- use a reinterpret_cast, cast via
char *at the point where reinterpret the memory -char *are defined as being able to alias anything - use a type which has
__attribute__((__may_alias__)) - turn off the aliasing assumptions globally using -fno-strict-aliasing
Time Stamp Counter
RDTSC
Clock Get Time
gcc *.c -o *.o ... -lrt # link with librt
#include <time.h>
struct timespec ts;
clock_gettime(CLOCK_MONOTONIC, ts);
printf("%d %d", ts.tv_sec, ts.tv_nsec);
NUMA Tool
grep -i numa /var/log/dmesg
NUMA Control
installation
sudo apt install -y numactl
usage
numactl --show
numactl --hardware
numactl --interleave=all
NUMA Status
numastat