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A cloudFPGA project with domain-specific accelerators for the hybrid multi-cloud era.

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cFp_Zoo Overview

License

cFp_Zoo is a cloudFPGA project (cFp) featuring domain-specific accelerators for the hybrid multi-cloud era.

Idea: The cFp_Zoo project develops numerous domain-specific accelerators, incuding those from the open source library Vitis Libraries to the cloudFPGA platform.

Oveview of cFp_Zoo

System configurattion

Ubuntu

Assuming Ubuntu >16.04 the folowing packages should be installed:

sudo apt-get install -y build-essential pkg-config libxml2-dev python3-opencv libjpeg-dev libpng-dev libopencv-dev libopencv-contrib-dev rename rpl dialog cmake swig python3-dev python3.8-venv gcc-multilib(=for vitis)

You may also need these steps for Ubuntu 18.04 & Vitis 2019.2 :

sudo apt-get install libjpeg62
wget http://se.archive.ubuntu.com/ubuntu/pool/main/libp/libpng/libpng12-0_1.2.54-1ubuntu1_amd64.deb
sudo apt-get install ./libpng12-0_1.2.54-1ubuntu1_amd64.deb 
rm ./libpng12-0_1.2.54-1ubuntu1_amd64.deb

CentOS/EL7

sudo yum groupinstall 'Development Tools'
sudo yum install cmake opencv-devel dialog python-numpy libxml2-devel python3 wireshark wireshark-gnome xauth rpl

Vivado/Vitis tool support

The versions below are supported by cFp_Zoo.

For the SHELL (cFDK's code)

  • 2017
    • 2017.4
  • 2018
  • 2019
    • 2019.1
    • 2019.2
  • 2020
    • 2020.1
    • 2020.2
  • 2021

For the ROLE (user's code)

  • 2017
  • 2018
  • 2019
    • 2019.1
    • 2019.2
  • 2020
    • 2020.1
    • 2020.2
  • 2021

cFp_Zoo supported libraries

cFp_Zoo features several accelerated functionalities in the form of libraries which include:

  • the C++ code that can be synthesized through Xilinx Vivado HLS tool into RTL code and further implemented into a network-attached FPGA through cFDK. This code is under the ROLE directory.
  • the C++ and/or Python host code, which can be executed on a bare-metal or VM-based host, which is in the same network with the aforementioned network-attached FPGA, and interact with it using network sockets. This code is under the HOST directory.

We provide support for the following libraries:

IBM ZRL libraries support

The following accelerated libraries are developed from IBM ZRL and are supported by cFp_Zoo:

Vitis libraries support

The following Vitis accelerated libraries are supported by cFp_Zoo:

Getting started

We provide a 6-steps flow to create an FPGA bitstream with a cFp_Zoo accelerated application and and launch it on cloudFPGA platform.

Step-1: Clone the project

git clone --recursive https://github.com/cloudFPGA/cFp_Zoo.git

Step-2: Setup your environment

cd cFp_Zoo
source env/setenv.sh

Step-3: Configure cFp_Zoo

Step 1 - Terminal Step 2 - Info Step 3 - Load configuration Step 4 - Select TCP/UDP Step 5 - Select Domain Step 6 - Select Kernel Step 7 - Select MTU Step 8 - Select Port Step 9 - Select DDR Step 10 - Confirm Step 11 - Finish

Step-4: Generate a static bitstream

After configuring a project with a selected accerelated kernel, you can initiate the synthesis and bitstream generation by issuing the following command:

make monolithic

You find your newly created bitstream in the folder cFp_Zoo/dcps, under the name 4_topFMKU60_impl_<ROLE>_monolithic.bit.

Step-5: Upload the bitstream to cloudFPGA Resource Manager

After generated a bitstream you can upload it to the cloudFPGA Resource Manager (cFRM). There are two ways to interact with cFRM:

Here we cover the 2nd option, i.e. cFSP.

  • Install cFSP

  • Load your credentials

  • Upload the image 4_topFMKU60_impl_vision_monolithic.bit

      $ ./cfsp image post --image_file=<path>/cFp_Zoo/4_topFMKU60_impl_vision_monolithic.bit
    

    cFSP-Image-Post-Upload-Res

    Write down the image "id" for use in the next step, e.g. 74462cd5-20e3-4228-a47d-258b7e5e583a.

Step-6: Launch the application

After uploading a bitstream you can program an FPGA with it. In addition, to launch the application you need a host where you can execute the software that interacts with this FPGA. Both the host and the FPGA need to be in the same network to communicate through network sockets. To help with such configurations, we have extended cFRM with the ability to create clusters of hosts and FPGAs.

Assuming you want to create a cluster with

  • one CPU node from ZYC2 with ip=10.12.2.100
  • one FPGA from cloudFPGA platform with the previously uloaded FPGA image with id 74462cd5-20e3-4228-a47d-258b7e5e583a
./cfsp cluster post --image_id=74462cd5-20e3-4228-a47d-258b7e5e583a --node_ip=10.12.2.100

cFSP-Cluster-Post-Create-Res

Write down the "role_ip" for later accessing your cluster's FPGA. e.g. 10.12.200.184

Then you need to login to the host:

ssh centos@10.12.2.100

Prepare the environment to execute the host software:

git clone --recursive https://github.com/cloudFPGA/cFp_Zoo.git
cd cFp_Zoo
source env/setenv.sh

Execute the host software (e.g. for the harris kernel of vision domain):

cd HOST/vision/harris/languages/cplusplus
mkdir build && cd build
cmake ../
make -j 4
./harris_host 10.12.200.184 2718 <image.png>

cFp_Zoo Essentials

Firewall issues

Some firewalls may block network packets if there is not a connection to the remote machine/port. Hence, to get the Triangle example to work, the following commands may be necessary to be executed (as root):

$ firewall-cmd --zone=public --add-port=2718-2750/udp --permanent
$ firewall-cmd --zone=public --add-port=2718-2750/tcp --permanent
$ firewall-cmd --reload

Also, ensure that the network secuirty group settings are updated (e.g. in case of the ZYC2 OpenStack).

Usefull commands

  • Connect to ZYC2 network through openvpn:

    sudo openvpn --config zyc2-vpn-user.ovpn --auth-user-pass up-user

  • Connect to a ZYC2 x86 node:

    ssh -Y ubuntu@10.12.2.100

  • On Wireshark filter line:

    udp.port==2718 or tcp.port==2718

    ip.addr == 10.12.200.0/24

  • Set maximum net buffer:

    • sudo sysctl -w net.core.rmem_max=2147483647
    • On the host code (cpp)
      //increase buffer size
      int recvBufSize = 0x1000000;
      int err = setsockopt(sock, SOL_SOCKET, SO_RCVBUF, &recvBufSize, sizeof(recvBufSize));
      if(err != 0)
      {
        std::cerr <<" error socket buffer: " << err << std::endl;
        exit(EXIT_FAILURE);
      }
      int real_buffer_size = 0;
      socklen_t len2 = sizeof(real_buffer_size);
      err = getsockopt(sock, SOL_SOCKET, SO_RCVBUF, &real_buffer_size, &len2);
      printf("got %d as buffer size (requested %d)\n",real_buffer_size/2, recvBufSize);
      if(real_buffer_size/2 != recvBufSize)
      {
        std::cerr << "set SO_RCVBUF failed! got only: " << real_buffer_size/2 << "; trying to continue..." << std::endl;
      }
      
    
    
  • Quick bitgen:

    sometimes it accelerates the build process of make monolithic if: execute after a successfull build make save_mono_incr and then build the new with make monolithic_incr or make monolithic_debug_incr

  • Update subrepositories (e.g. for Vitis_Libraries)

    On the pc that you want to change the subrepo to a new version

    cd Vitis_Libraries
    git checkout origin master` (or any other version)
    git commit -am "Updated Vitis_Libraries to master"
    

    On the pc you want to sync with the new subrepo

    git submodule update --init -- Vitis_Libraries/
    
  • Add user to wireshark group in order to capture packets without advanced privileges. (needs logout)

    sudo usermod -aG wireshark $USER
    

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A cloudFPGA project with domain-specific accelerators for the hybrid multi-cloud era.

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