Latest Posts

Aug 19, 2021

The upcoming PCIe® 6.0 specification introduces Flow Control Unit (FLIT) encoding, which enables the specification to provide low latency with high efficiency. FLIT mode is adopted for the PCIe 6.0 architecture because error correction needs to operate on fixed sized packets.

  • PCIe 6.0
  • PCI Express 6.0
  • PAM4
  • PCIe FEC
  • Forward Error Correction
  • FLIT
Apr 09, 2021

With global health and safety concerns related to the Covid-19 pandemic still greatly limiting in-person events in 2021, PCI-SIG® continues to offer compliance workshop opportunities to our members virtually.

  • Standards & Compliance
  • PCIe 6.0 specification
  • PAM4 signaling
  • PCIe 6.0 architecture
  • PCIe form factor
  • FLIT Mode
  • PCIe FEC
Aug 11, 2020

One of the many new features included in the PCI Express® (PCIe®) specification will be PAM4 (Pulse Amplitude Modulation with 4 levels) signaling.

  • Systems & Applications
  • PCIe 6.0
  • PCI Express 6.0
  • What is PAM4
  • PAM4
  • PCIe FEC
  • Forward Error Correction
Jun 22, 2020

For almost two decades, the PCI Express® (PCIe®) architecture has offered low latency and high bandwidth in support of next generation systems.

  • Systems & Applications
  • PCIe 6.0
  • PCI Express 6.0
  • PAM4
  • PCIe FEC
  • Forward Error Correction
  • FLIT
Feb 19, 2020

We are starting 2020 with the release of version 0.5 of the PCI Express® (PCIe®) 6.0 specification incorporating the significant member feedback received on version 0.3.

  • Standards & Compliance
  • PCIe 6.0
  • PCI Express 6.0
  • PAM4
  • PCIe FEC
  • Forward Error Correction
  • FLIT
  • PCI Express specification
Nov 15, 2019

PCI-SIG® has enabled PCI Express® (PCIe®) technology to be cost-effective and easy to implement by supporting multiple form factors for a variety of applications.

  • Physical Form Factors
  • PCIe 5.0
  • PCI Express 5.0
  • PCIe CEM
  • PCIe Card Electromechanical Connector
Sep 11, 2018

PCI Express (PCIe®) has been widely adopted in a number of applications that range from small, power-constrained IoT sensors and mobile devices to servers and networking and communications equipment.

  • Physical Form Factors
  • M.2
  • U.2
  • CEM
  • Networking
  • Form Factor