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Globally Addressable Memory management (efficient distributed memory management via RDMA and caching)

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Overview

GAM (Globally Addressable Memory) is a distributed memory management platform which provides a global, unified memory space over a cluster of nodes connected via RDMA (Remote Direct Memory Access). GAM allows nodes to employ a cache to exploit the locality in global memory accesses, and uses an RDMA-based, distributed cache coherency protocol to keep cached data consistent. Unlike existing distributed memory management systems which typically employ Release Consistency and require synchronization primitives to be explicitly called for data consistency, GAM enforces the PSO (Partial Store Order) memory model which ensures data consistency automatically and relaxes the Read-After-Write and Write-After-Write ordering to remove costly writes from critical program execution paths. For more information, please refer to our VLDB'18 paper.

Build & Usage

Prerequisite

  1. libverbs
  2. boost thread
  3. boost system
  4. gcc 4.8.4+

GAM Core

First build libcuckoo in the lib/libcuckoo directory by following the README.md file in that directory, and then go to the src directory and run make therein.

  cd src;
  make -j;

Test and Micro Benchmark

We provide an extensive set of tools to test and benchmark GAM. These tools are contained in the test directory, and also serve the purpose of demonstrating the usage of the APIs provided in GAM. To build them, simply run make -j in the test directory.

A script benchmark-all.sh is provided in the script directory to facilitate the benchmarking of GAM. This script is also used to generate the result of the micro benchmark in the GAM paper. To run this script, a slaves file needs to be provided within the same directory. Each line of the slaves file contains the ip address and port (separated by space) of a node that is involved in the benchmarking, and the number of lines contained in the slaves file should be no smaller than that of nodes for benchmarking. There are multiple parameters that can be varied for a thorough benchmarking, please refer to our paper for detail.

Applications

We build two distributed applications on top of GAM by using the APIs GAM provide, a distributed key-value store and distributed transaction processing engine. To build them, simply run the below commands:

  cd dht
  make -j
  cd ../database
  make -j

Macro Benchmark

There is a script kv-benchmark.sh provided in the dht directory to benchmark the key-value store. To run it, please change the variables in the script according to the experimental setting. There are also several parameters that can be varied for benchmarking, such as thread number, get ratio and number of nodes. Please refer to the GAM paper and the script for detail.

To run the TPCC benchmark, please follow the instructions of the README file in the database directory.

FaRM

We implement the FaRM system as a baseline for macro benchmark. To build the FaRM codebase, please run the below command:

  git checkout farm 
  cd src
  make -j

We also provide several tools to test and benchmark our FaRM implementation. Please go to the test directory, and make -j therein to generate those tools. All tools but farm-cluster-test can be run directly. For farm-cluster-test, a script run_farm_cluster.sh is provided in scripts directory. Please change the variables in that script according to the deployment environment.

References

[1] Qingchao Cai, Wentian Guo, Hao Zhang, Gang Chen, Beng Chin Ooi, Kian-Lee Tan, Yong Meng Teo, and Sheng Wang. Efficient Distributed Memory Management with RDMA and Caching. PVLDB, 11 (11): 1604- 1617, 2018. DOI: https://doi.org/10.14778/3236187.3236209.

[2] Aleksandar Dragojević, Dushyanth Narayanan, Orion Hodson, and Miguel Castro. FaRM: Fast remote memory. Proceedings of the 11th USENIX Conference on Networked Systems Design and Implementation. 2014.

License

Copyright (c) 2018 The GAM Authors

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at

  http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.

Notice

The TPCC benchmark code in the database directory is adapted from an open source project Cavalia, which can be found at

  https://github.com/Cavalia/Cavalia

In addition, this project uses the event loop implementation of Redis, which can be found at

  https://redis.io/

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