Difference between revisions of "EJFAT"

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# Hosts NVME memory/disk
 
# Hosts NVME memory/disk
 
# 100Gbps U280 FPGA: ejfat-fs-dp 129.57.177.{65-68}
 
# 100Gbps U280 FPGA: ejfat-fs-dp 129.57.177.{65-68}
# LB CP: ejfat-fs 129.57.177.130, latest '''Stable''' branch
+
# LB CP: ejfat-fs 129.57.177.130, <s>latest Stable branch</s>
# LB: DP latest '''Stable''' FW
+
# LB: DP <s>latest Stable FW</s>
  
 
== Presentations/Papers ==
 
== Presentations/Papers ==

Revision as of 13:17, 21 November 2024

Welcome to the EJFAT Wiki

(ESnet / JLaB FPGA Accelerated Transport)



System Overview:

EJFAT is a collaboration between Energy Sciences Network (ESnet) and Thomas Jefferson National Laboratory (JLab) for proof of concept engineering for accelerated load balancer (LB) using dynamic IP4/6 address forwarding. Dynamic because the forwarding address is chosen dynamically from a collection of destination endpoints based on near real-time destination workload conditions, and accelerated because the forwarding is accomplished with low fixed latency at line rates of up to 200Gbps per FPGA, where in general a functioning LB may consist of up to four FPGAs acting as one logical DP for a total bandwidth capacity of over 1 Tbps. The low, fixed latency is achieved by utilization of an appropriately programmed Field Programmable Gate Array (FPGA) to effect the Data Plane (DP) functions of the LB.

EJFAT System Status

ejfat-1

  1. 100Gbps NIC: ejfat-1-daq 129.57.177.8
  2. 10Gbps NIC: ejfat-1 129.57.177.131
  3. U280 FPGA: ejfat-1-dp 129.57.177.{9-12} - LAG'd for 200Gbps
  4. LB CP: ejfat-1 129.57.177.131, latest Stable branch
  5. LB: DP latest Stable FW

ejfat-2

  1. 100Gbps NIC: ejfat-2-daq 129.57.177.2
  2. 10Gbps NIC: ejfat-2 129.57.177.132
  3. 100Gbps U280 FPGA: ejfat-2-dp 129.57.177.{17-24}
  4. LB CP: ejfat-2 129.57.177.132, latest Stable branch
  5. LB: DP latest Stable FW

ejfat-3

  1. 200Gbps NIC: ejfat-3-daq 129.57.177.3
  2. 10Gbps NIC: ejfat-3 129.57.177.133
  3. Two U280s installed - LAG'd for 400Gbps
  4. FW Containers built by Stacey

ejfat-4

  1. 100Gbps NIC: ejfat-4-daq 129.57.177.4
  2. 10Gbps NIC: ejfat-4 129.57.177.134
  3. XDP experiments
  4. 100Gbps U280 FPGA: ejfat-4-dp 129.57.177.{41-44}
  5. LB CP: ejfat-4 129.57.177.134, latest Stable branch
  6. LB: DP latest Stable FW

ejfat-5

  1. 200Gbps NIC: ejfat-5-daq 129.57.177.5
  2. 10Gbps NIC: ejfat-5 129.57.177.135
  3. LB CP: ejfat-5 129.57.177.135, latest Stable branch
  4. 100Gbps U280 FPGA: ejfat-5-dp 129.57.177.{49-52}
  5. LB: DP latest Stable FW
  6. Optical Taps Installed

ejfat-6

  1. 200Gbps NIC: ejfat-6-daq 129.57.177.6
  2. 10Gbps NIC: ejfat-6 129.57.177.136
  3. DAOS experiments
  4. Using Ubuntu 24.04 LTS
  5. FW containers built
  6. Waiting for podman compose installation

ejfat-fs

  1. 100Gbps NIC: ejfat-fs-daq 129.57.177.7
  2. 10Gbps NIC: ejfat-fs 129.57.177.130
  3. Hosts NVME memory/disk
  4. 100Gbps U280 FPGA: ejfat-fs-dp 129.57.177.{65-68}
  5. LB CP: ejfat-fs 129.57.177.130, latest Stable branch
  6. LB: DP latest Stable FW

Presentations/Papers

date presenter Event links
2021-03-01 G. Heyes EJFAT Proposal Word
2021-10-21 M. S. Goodrich Div Brief PDF
2021-11-05 M. S. Goodrich Canisius College PDF
2021-12-03 S. Sheldon ESnet LB Tutorial MP4
2021-12-10 Y. Kumar SRO iX Presentation PPTX
2022-08-05 M. S. Goodrich RT-2022 Presentation PPTX
2022-08-05 M. S. Goodrich, et al. RT-2022 Proceedings PDF
2022-10-20 S. Sheldon, et al. INDIS-2022 PDF
2022-10-24 M. S. Goodrich ACAT-2022 Presentation PPTX
2023-03-17 M. S. Goodrich, et al. ACAT-2022 Proceedings PDF
2023-05-11 M. S. Goodrich, et al. CHEP-2023 Presentation PPTX
2023-10-12 D. Howard, et al. CHEP-2023 Conference Publication PDF
2024-03-11 M. S. Goodrich, et al. ACAT-2024 Presentation PPTX
2024-04-10 M. S. Goodrich, et al. RT-2024 Presentation PPTX
2024-07-31 M. S. Goodrich, et al. ACAT-2024 Proceedings PDF
2024-10-02 S. Veseli​, APS/SDM APS/ALS - EJFAT PPTX

EJFAT Weekly EPSCI Meetings

EJFAT Weekly EPSCI Meetings

EJFAT Weekly Collaboration Meetings

EJFAT Weekly Meetings

Technical Design Overview

EJFAT Technical Design Overview

UDP Packet Header Formats

IRIAD/EJFAT Testbed

UDP Transmission Performance

EJFAT UDP General Information

EJFAT UDP General Performance Considerations

EJFAT UDP Packet Receiving and Core Switching

EJFAT UDP Packet Sending and NUMA Nodes

EJFAT UDP Single Thread Packet Sending and Receiving

Testing Load Balancer Bandwidth

HOW-TOs

Install a Load Balancer

Test a Load Balancer

How to setup ejfat nodes

How to install, build and use gRPC

How to install, build and use XDP related packages

How to Compute Schedule Density from PID Signals

Enable Jumbo Frames

Network Path MTU Discovery support in the Linux Kernel:

file: /proc/sys/net/ipv4/tcp_mtu_probing
variable: net.ipv4.tcp_mtu_probing (integer; default: 0; since Linux 2.6.17):

tcp_mtu_probing - INTEGER
	Controls TCP Packetization-Layer Path MTU Discovery.  Takes three values:
	  0 - Disabled
	  1 - Disabled by default, enabled when an ICMP black hole detected
	  2 - Always enabled, use initial MSS of tcp_base_mss.

REFERENCEs

EJFAT Config Planning

JLab EJFAT News Release

EJFAT on FABRIC

EJFAT API

LB Pipeline

Getting Started with EJFAT

IRIAD Workplan

SRO Grand Challenge

ESnet Logical Map

IP Neighbor

Robot Framework

IRI Vision

A horizontally scalable online processing system for trigger-less data acquisition

The-triggerless-data-acquisition-system-of-the-XENONnT-experiment

DUNE triggerless DAQ

Streaming Mode DAQ at JLab

Real-time data analysis in particle physics

Intro to Triggering

SRO Test Plan

Edge to Core Test Equipment:

  1. Price Estimate Spreadsheet
  2. Networking Diagram, Updated (PDF) (from Brent 2024-02-09)
  3. PR408549 : Requisition 1 of 2 :
    1. Statement of Work for Servers
    2. 1/13/2022: EJFAT team decided to solicit two bid responses, one with MLX NIC and one without. Response from Procurement is "I can ask for the two separate quotes. If you are going to purchase both option (with & without add-in cards), once I receive the quotes back, you will have submit a new PR to cover the option (without add-in cards)."
    3. 1/18/2022: Question from KOI Computers: "please clarify what the part number for the NVIDIA Dual Port ConnectX-6". Replied with part # MCX623106AN-CDAT.
    4. 1/24/2022: Requisition currently open for bid responses from vendors. Due date is COB 1/24/2022.
    5. 1/27/2022: PO awarded to Atipa for 6 servers and 1 file-server with FPGA and MLX SmartNIC. Expected delivery date from vendor is 5/31/2022.
  4. PR408870 PR408938 Requisition 2 of 2: Statement of Work for Switches & Cables
    1. 1/14/2022: PRs for the switches, transceivers and fiber have been submitted. I added (4) 2km 100G transceivers to support dual 100G connections between the switches. We can always upgrade to 400G in the future, if needed.
  5. PR409850 NVIDIA ARM HPC Developer Kit
    1. Hardware Specifications for dev kit
      Model GIGABYTE G242-P32, 2U server
      CPU 1x Ampere Altra Q80-30 (Arm processor)
      Memory 512G DDR4 memory
      Storage 6TB SAS/ SATA 3.5″
      GPU 2x NVIDIA A100 GPU
      Network 2x NVIDIA® BlueField®-2 E-Series DPU, 200GbE/HDR single-port QSFP56, PCIe Gen4 x16, secure boot enabled, crypto disabled, 16GB on-board DDR, 1GbE OOB management

Resources